TIGER FAMILY
The Tiger 320 Operating System supports an easy to use PC based Configuration Utility Program, which can be downloaded FREE from the web, and programming from front panel buttons.
The T Version supports custom macro programs that can be easily produced with the Tiger 320 Macro Development System (available FREE on the web). The Development System enables programs to be written in BASIC, which can utilize any combination of the hundreds of functions and thousands of registers embedded in the Tiger 320 Operating System.
Red, green, or superbright red 7-segment, high LEDs with
full support for seven segment alphanumeric text.
Brightness control of LED display from front panel buttons.
0 segment red, green or tricolor bargraph that can display the signal from any of four channels or the result of a processed input signal.
Modular construction with more than 20 interchangeable input signal conditioners and more than 25 interchangeable I/O modules.
Up to 4 input channels with cross channel math for multi-
channel processing.
For applications where sensor excitation is required, modules are provided with 5V, 0V or 24 V DC voltage outputs.
On demand tare, calibration and compensation can be initi-
ated by the front panel program button.
Serial output options include RS-232, RS-485, ModBus or
direct meter-to-meter communications.
Single or dual 6-bit Isolated Analog Outputs. Programmable 0~4 to 20mA or 0 to 0V for retransmission, 4-20mA loops to drive valve actuators, remote controllers & displays, multiloop feedback and PID output. Scalable from count to full scale.
Dual independent totalizers to integrate input signals.
6 super smart, independently programmable setpoints with 8 selectable functions, including latching, deviation, hysteresis, register resetting, tracking and dual PID. Plus 7 programmable timer modes on all 6 setpoints.
Setpoint tracking, setpoint latching and manual relay reset.
Setpoints activated from any input, any register in the meter
or from any digital input.
Plug-in I/O modules include electromechanical or solid state relays, logic outputs or open collector outputs. 6 inputs & 6 outputs of opto-isolated I/O can be connected to an external DIN Rail terminal block module.
Internal program safety lockout switch to prevent tampering.
Peak & valley (max & min) with front panel recall and reset.
Real time clock with 5 year Lithium battery backup.
Data logging within the meter (up to 4000 samples with
date/time stamp).
Autozero maintenance for super stable zero reading is pro-
Optional NEMA-4 front cover.
vided for use in weighing applications.
Programmable input averaging and smart digital filtering for
quick response to input signal changes.
Display text editing. Customize display text for OEM applica-
tions.
Scrolling display text messaging on T meters with macros.
Auto-sensing high voltage or optional low voltage AC / DC
power supply.
TIGER FAMILY: More than 20 different Plug-in I-Series Input Signal Conditioners are approved for the Tiger Family of meters.
See I-Series Input Signal Conditioning Modules Guide (Z87) for an up-to-date list.
General Features................... Specifications....................... 2 Tiger 320 Series Literature Overview... 3 Tiger 320 Series System Overview... 4-5 Planning to Use the Tiger 320....... 6-8 Block Diagram of Tiger 320 Structure... 9 Configuration Utility Program......... 0 Custom Macro Program............. Index......................... 2-3
... 9-20 Display Brightness.................. 20 Calibration Modes............... 2-24 Programming Procedures......... 25-44 Setpoint Programming Mode...... 45-5 Registers......................... 52
Functional Diagram................. 53 Connector Pinouts.................. 53 Carrier Board Output Pins........... 54 Relay and Logic I/O Modules......... 54 Component Layout & Ext. Devices... 55-56 I-Series Input Modules........... 57-63 Ordering Information............. 64-66 Custom Faceplates................. 67 Case Dimensions.................. 68
GI-50EB0 320 DS (NZ309)
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Page
Specifications
Display
Digital Display: 7-segment, (25.4 mm) LEDs.
Display Color: Red (std). Green or Super-Bright Red (optional).
Digital Display Range: -9999 to 99999 Update Rate: 3 to 0 times per second Bargraph Display: 0-segment bargraph.
Bargraph Color: Red (std). Green or Tricolor (optional).
Display Dimming: 8 brightness levels. Front Panel selectable Scrolling Display Text Messaging: Full alphanumeric, 7-segment text characters supported on T Version with macros.
Polarity: Assumed positive. Displays - negative Decimal Point: Front panel, user selectable to five positions.
Annunciators: 6 red LEDs on front panel; one per setpoint.
Overrange Indication:
Underrange Indication:
Front Panel Controls: PROGRAM, UP and DOWN.
Operating System (Tiger 320)
Processor: 32 bit with floating point maths (8.4 MHz).
Flash Memory: 64k, 4k for use by custom macros.
RAM: .25k and FeRAM 4k.
EEPROM: E Version 4k standard, T Version 32k standard. Memory upgrades available to 32k for LIN Tables and MB for Data Logging and custom macros.
Registers: 644 registers comprised of 8, 6 or 32 bit signed, unsigned or floating point registers, implemented in a combination of RAM, FeRAM, Flash and EEPROM.
Internal communication BUS: 32 bit I2C BUS Real Time Clock (option): Year:Month:Date:Hour:Minute:Second with 5 yr Lithium battery backup.
Configuration: Supports Front Panel Programming Codes and a PC-based Configuration Utility Program, which may be downloaded free from the web. T Version also supports custom macros.
Development System for Custom Macros
The Tiger 320 Macro Development System, which may be downloaded free from the web, can be used to create powerful macro software that allows Tiger 320 T Versions to be easily customized to suit any proprietary OEM application (see page ).
Installed Application Software Includes
Inputs
Inputs Available: More than 20 single, dual, triple and quad input signal conditioners available covering all types of analog, digital and mixed input signals (see page 57).
Accuracy: Tiger 320 PMCs enable the user to establish any degree of system accuracy required. Built-in compensation and linearization functions enable system accuracies of the order of 0.000% of reading for analog inputs. Stop -Start time resolution from sec to 0.7nsec. Digital input and pulse counts count.
A/D Convertors: A Dual Slope, bipolar 7 bit A/D is provided as standard on the main board. SMART modules can have 24 bit or 6 bit Delta-Sigma A/D convertors that utilize the internal I2C BUS.
Temperature Coefficient: Typically 30ppm/ C. Compensation can be utilized to achieve system temperature coefficients of ppm.
Warm Up Time: Up to 0 minutes, depending on input module.
Conversion Rate: Typically 0 samples per second. However, SMART input modules are available that can convert at 60, 240, 480 or 960 samples per second.
Control Output Rate: Can be selected for 00msec or 0msec.
Some SMART modules have SSR outputs that react within .2msec.
Excitation Voltage: Depends on input module selected. Typically, 5V, 0V or 24VDC is provided.
board.
1. Single Analog Output: Fully scalable from 4 to 20mA or 0 to 20mA
(or reverse) and selectable for 0 to 0VDC (or reverse).
2. Dual Analog Output: Fully scalable from 0 to 0VDC (or reverse).
Analog Output Specifications: Accuracy: 0.02% FS.
Resolution: 6-bit Delta-Sigma D/A provides 0.4A on current scaling, 250V on voltage scaling. Compliance: 500 maximum for current output. 500 minimum for voltage output. Update Rate: Typical 7 per second. Step Response: Typical 6msec to a display change. Scalable: From count to full scale.
Seven I/O Modules: Plug into any carrier board from rear.
1. Four Relay Module: Available in six combinations from one relay up to a total of two 0A Form C Relays* and two 5A Form A Relays**.
2. Four Relay Module: Available with one to four 5A Form A Relays**.
3. Six Relay Module: Available with five or six 5A Form A Relays**.
*Form C Relay Specifications: 0A 240VAC~/2 HP, 8A 24VDC. Isolation 3000V. UL and CSA listed. **Form A Relay Specifications: 5A 240VAC, 4A 24VDC.
Isolation 3000V. UL and CSA listed.
4. Four Solid State Relay (SSR) Module: Available with one to four independent (20mA DC only) or (40mA AC/DC) SSRs (400V max).
5. Six Output 5VDC / TTL or Open Collector: Available with 0 to 5V
or 0 to V+ (40VDC max).
6. Opto Isolated I/O Module: Available in either 6 Outputs & 6 Inputs, or 6 Outputs and 6 Inputs. For connection to an external breakout box.
7. Flash Card Memory Module: Available with 8 or 6 MB memory.
Power Supplies
Case Dimensions: 9/32 DIN, 44x72mm (5.69 x 2.84) Case Material: 94V-0 UL rated self-extinguishing polycarbonate.
Weight: .5 oz (0.79 lbs), 4 oz (0.96 lbs) when packed.
Approvals
CE: As per EN-6000-3/4/6 and EN-600-.
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GI-50EB0 320 DS (NZ309)
8The Tiger 320 Series, Modular Literature system, makes it easy to select detailed information about those specific functions required for your application and the Configuration of the Tiger 320 you intend using.
Copies of all Data Sheets / User Manuals and Supplements can be viewed page-bypage and/or downloaded from the document server on our website.
Programming Code Sheet
Generic to all Tiger 320 Series models, the Programming Code Sheet is a quick reference document that allows you to quickly view the meters manual programming codes.
Shipped with each product ordered, copies are also available on request, or can be viewed and downloaded from the document server on our website.
Model Specific Data Sheet / User Manual
Specific to each 320 Series meter model, the data sheet / user manual describes the basic functions of the meter and how to configure the meter for these functions.
Shipped with each product ordered, copies are also available on request, or can be viewed and downloaded from the document server on our website.
The model specific data sheet / user manual contains:
Technical Specifications
Front Panel Button Manual
Overview of Tiger 320 Series
Programming Codes Overview
Software and Hardware
Programming Procedures
Planning Guide
Functional Diagram and
Block Diagram of the Tiger
320 Software and Hardware
Configuration Utility Program
Custom Macro Programming
Front and Rear Panel
Controls
Pinouts
Hardware Layout and Available
Input and Output Modules
Meter Options, and Custom
Faceplates
Ordering Information
Supplements to Data Sheet / User Manual are Generic to all Tiger 320 Models
Generic to all Tiger 320 Series models, each supplement provides in-depth technical and procedural information on all individual meter modules, functions, or applications.
Listed are the supplements which are currently available:
Specific supplements are
shipped with each product ordered to suit our customers application. Copies are also available on request, or can be viewed and downloaded from the document server on our website.
4Advanced Calibration and On DEMAND Mode
4Analog Output Modules
4BASIC to Tiger 320 MACRO-Language
Program Development System, Compiler and Tutorial
4Configuration Utility Program (Runs on PC)
4Linearizing Functions
4Meter Registers (for Macro Programming)
4Serial Communications Output Modules
4Setpoints & Relays
4Totalizing & Batching Functions
Tiger 320
Functional Overview
Tiger 320
Application Examples
I-Series Input Signal
Conditioning Modules
Smart Module
Data Sheets
Other Tiger 320 Series Related Literature
GI-50EB0 320 DS (NZ309)
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Page 3
A virtual toolbox of selectable and programmable application software functions are embedded in the Tiger 320 Operating System. They integrate seamlessly with a truly vast array of modular input and output hardware options.
Embedded Application Software Includes:
Multi-channel Inputs In Many Combinations
Full Floating-point Maths
Cross Channel Math (A+B, A-B, AxB, A/B)
Square Root, Inverse and Log of Input
4 x 32 Point Or 1 x 125 Point Linearization Table
Smart Auto Zero with Programmable Capture Band, Rate
of Change and Aperture Window for Weighing Applications
Set Tare Reset Tare for Batching
Smart Quick Response Averaging
Smart Timer and Time Integration Functions
Time and Event-based Sequencing
Polynomial Calculations
Remote Reset of Any Function
Dual Totalizers
Dual PID
Data Logging and Memory Options Up to 1MB of non-volatile on-board memory can be installed for (Black Box) endless loop recording. Up to 4000 data records can be continuously stored to provide before and after analysis of any process fault condition.
Data log from 4 channels.
Data log from 2 channels with date & time stamp.
Log / print from setpoint
A Plug-in I/O Module is available with removable Flash Card Memory for high-capacity or long-term data logging.
Flash Cards are available from 4 to 28 Meg.
or timer.
Optional Real-time clock
with date and time stamp.
15 year lithium battery.
Powerful Custom Macro Programming Capability Texmates BASIC to Tiger 320 Macro-language Compiler can quickly Convert your special metering, control and automation ideas into reality.
This powerful easy to use development system enables programs to be written in BASIC utilizing any combination of the hundreds of functions and thousands of registers embedded in the Tiger 320 Operating System. When your BASIC program is compiled into the Tiger 320 Macro-language it is error checked and optimized. There are also numerous offthe-shelf application specific programs available. Many only need the blanks to be filled in to use them and this does not require any knowledge of BASIC.
Scrolling annunciator messages can be programmed to appear with any setpoint activation, selected events or logic inputs.
Programmable Front Panel Controls
The front panel buttons can be used to control or program any standard functions.
They can also be programmed to only access and display specifically designated functions, such as Tare, Auto-Cal or Print on Demand.
PC Programming
Program the meter from a PC with Texmates easy to use Tiger 320 Configuration Utility Program.
144x72mm 9/32 DIN
Single or multiple LED or LCD displays Numeric, Alpha Numeric and Bargraph
96x48mm1/8 DIN
36x144mm
9/64 DIN
648x144mm 4LED
Remote Display
5 or 6 digit Driven by RS485
from any Tiger 320
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9 May, 0/
GI-50B0 320 Series (NZ309) GI-50EB0 320 DS (NZ309)
6 Inputs & 16 Outputs or 6 Inputs & 6 Outputs
Fully Programmable
Connects to DIN Rail terminal block module with 3M IDC cable
Three logic level inputs are provided on the module input header and three rear input pins are provided that can be programmed to STOP/START/RESET almost any function including: set tare, reset tare, relays, totalizers, print output, data logging, peak, valley, or any register from an external contact closure.
Serial module
Analog Output module
Output Module Carrier Board
Scrolling Annunciator up to 99 Characters long is available on all 6 setpoints for Alphanumeric Displays with Fill-in-theblanks Macro.
DUAL PID
Dual PID
Activation
Relay Latching
Single
Dual
RS-232
Serial Printer Output
Smart printer driver makes simple serial printers look intelligent.
0 ~ 4-20mA or 0-10V Programmable 0~4 to 20 mA or 0 to 0 V for retransmission, 4-20 mA loops to drive valve actuators, remote controllers & displays, multi-loop feedback and PID output.
0-10V & 0-10V
Auto-sensing AC/DC Power Supply
High Efficiency CE tested Auto Sensing AC/DC power supplies
Standard 85-265 Volt AC / 95-370 Volt DC
Low Voltage 9-32 Volt AC / 0-60 Volt DC
RS-485
Selectable Communication
Modes include:
ASCII
Modbus
Ethernet (TCP/IP)
DeviceNet (with optional carrier board installed)
Interface directly with PCs (using Windows terminal program), PLCs, or any Epson compatible serial printer.
Meter to Meter Communication.
Direct meter to meter communication enables two meters to share data and resources.
Choose from over 20 different single, dual,
triple and quad input signal conditioners.
Over 120 Single-Input, Dual-Input, Triple Input and Quad-Input signal conditioners work with the Tiger 320 series
Mixed function and smart modules with their own A/Ds, co-processors, SSRs and I2C Bus outputs are available to suit almost any application.
006 GI-50B0 320 Series (NZ309) GI-50EB0 320 DS (NZ309)
Texmate, Inc. Tel. (760) 598-9899 www.texmate.com Texmate, Inc. Tel. (760) 598-9899 www.texmate.com
Page 5 Page 5
A combination of modular hardware and software resources enable Tiger 320 Series Programmable Meter Controllers
(PMCs) to be easily configured as a cost effective solution for the most simple or the most complex of applications.
A review of your Projects objectives, its physical layout, the proposed sensors and control outputs will enable you to select the optimum configuration of the Tiger 320 PMCs unique hardware and software capabilities.
Input Signals & Sensors 4-20 mA or Sensor Direct Unless sensors are located at a far distance, the greatest accuracy and best performance is usually obtained by connecting sensors directly to the Tiger 320, which will then function as the primary measurement device.
There are more than 20 Tiger compatible input signal conditioning modules, with the appropriate excitation outputs, to suit almost any type of sensor or combinations of up to 4 sensors.
In most cases, sensors with a 4-20 mA output are more costly, and when a separate 4-20 mA transmitter is used, signal conversion, drift, and calibration inaccuracies are introduced.
Some Tiger input modules combine direct sensor inputs with 4-20 mA inputs, enabling both local and far distant sensor inputs to be combined.
Sensor Linearization or Compensation The performance of many sensors can be greatly enhanced or expanded with linearization and or compensation.
Sensors may be compensated for temperature, frequency, altitude, humidity and mechanical position, to name just a few parameters.
Tiger PMCs with 32 kilobits or more of memory provide up to four 32-point user defined linearization tables or one combined 25-point table.
Many compensation methods can be implemented with the standard cross channel math capabilities of the Tigers 32-bit operating system. Complex three-dimensional compensation can also be implemented using the
powerful macro programming capability.
The serial number and calibration date of a sensor can be loaded into the meter. The serial number, linearization tables, and compensation factors of a newly calibrated sensor can then be saved for future reloading, either serially through a PC or directly through the web via an Ethernet port.
Although there are numerous input modules with combinations of various input signals, some inputs such as watts or pH are provided on input modules dedicated to a single function. Combining these inputs with each other signals two or more Tiger meters can serially communicate, and be configured to share their data and processing resources.
Display Options
Tiger PMCs have a large range of display options, including digital and alphanumeric LCDs, LEDs and Touch Panel HMIs.
LED or LCD Displays LED displays are a lower cost and popular display option.
They operate over the largest temperature range, have better viewing angles and viewing distances, and have the longest operational life. However, red LEDs are difficult to read in direct sunlight without a shade hood and consume more power. Green LEDs and backlit LCD displays can be more easily read in direct sunlight.
The Tiger range can be ordered with red or green LEDs. LCD displays are also available, with or without backlighting.
Numeric or Alphanumeric Displays Generally, numeric displays are a lower cost option than alphanumeric displays. The Tiger range supports a full 7segment numeric and 4-segment alphanumeric alphabet of English letters and Arabic numerals. Where complex text messaging or alarm annunciation is required, we recommend using the 4-segment alphanumeric option.
Single or Multiple Display The Tiger meter has four input channels and can be configured to display many different inputs or results. These can be viewed constantly on the operational display, or on demand in one of the view modes by pressing a button. Some applications require multiple values to be displayed simultaneously. With single, dual, or triple displays, and single displays with 5 or 0-segment bargraph combinations, we have a large range of display options to choose from.
Tiger meters can communicate with each other to share their data and processing resources and be stack or twin mounted to provide a wider range of display options.
Stack mounting
for greater display
options
Twin or triple mounting for greater display options
Push Button or Membrane Touch Pads Tiger PMCs are shipped as standard with high usage hard plastic push buttons. An optional clear lens cover that opens on a cam hinge with a key lock can provide full NEMA 4 or IP65 dust and water proofing. Alternatively, an optional membrane touch pad faceplate can be ordered.
PLANNING
TIP
Faceplates can be
customized to suit any OEM application, and
be quickly produced in large or small quantities for push buttons or membrane touch pads.
Electromechanical Relays or Solid State Control Outputs
Tiger PMCs have a wide selection of control outputs to chose from. The decision on which control output to
choose depends on the current and the switching frequency.
Electromechanical relays are a popular choice for most control outputs. Tiger output modules are available with combinations of two 0 amp form C and two to six 5 amp form A relays that can be used to directly drive fractional HP motors or actua-
tors.
The limitation of electromechanical relays is switching speed. If a relay needs to operate in less than 30 mS, or be cycled faster than.5 cpm, it is advisable to select an output module with solid state relays (SSR) or open collector outputs (OC), that can drive external high current SSRs.
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GI-50EB0 320 DS (NZ309)
PID or On/Off Control Depending on the process to be controlled, either PID or on/ off control should be selected. If the process variables are reasonably consistent, then the on/off control is generally more than adequate and easier to implement. Super smart setpoint control software supports many selectable functions, such as Hi or Lo activation, Latching, Hysteresis, Tracking, Register Resetting and 7 Multi-function internal Timers on all setpoints.
Control systems with large lag and lead times are not suitable for on/off control and tend to overshoot and undershoot.
PLANNING
PID is needed to stabilize and control these systems. One TIP of the many powerful setpoint functions provided by the Tiger 320 Operating System is single or dual PID.
Retransmission 0-10V or 4-20mA Tiger PMCs can have an optional single (0-0 V or 0/4-20 mA) or dual (0-0 V) analog output module installed. The isolated 6-bit output is fully scalable and highly accurate.
With a compliance of up to 500 at 20mA, the 4-20 mA output can be used over very long distances and still drive more than one output device, such as a PID controlled valve positioner.
The analog outputs can be reversed to output 20mA to 4/0 or 0 to 0VDC. They can be scaled across any portion of the digital range, up to full scale. The output can be programmed to swing 0 to 20mA or 0 to 0V in one digital count to drive external logic or SSRs as additional setpoints. Under Macro Program Control, the analog outputs can be programmed to produce pulses or even sinewaves.
I/O Logic, Rear Panel or Breakout Box The Tiger Operating System has many built-in logic functions that can be used to develop sophisticated control systems. The Tiger PMC has three logic inputs/outputs available via the LOCK, HOLD, and CAPTURE pins, and three logic I/Os are available for input module use via pins D, D2 and D3.
More complex I/O intensive applications require an opto-isolated I/O plug-in module, which supports six inputs and up to 6 outputs. This module can connect to an external Breakout Box that is DIN Rail mountable with screw terminal blocks. There are also compatible DIN Rail mounting electromechanical relays and SSR modules.
6 Inputs & 16 Outputs or 6 Inputs & 6 Outputs
Fully Programmable
The easiest way to configure or program a Tiger PMC is with the free user-friendly Configuration or Macro Development Software.
Serial I/O is provided via an optional Plug-in output carrier board, which supports RS-232 or RS-485 output modules. If serial I/O is not required by the application, the serial carrier board can be removed for reuse. The Tiger 320 Operating System supports several serial protocols, including ASCII, Modbus RTU and Print Mode (which includes a printer driver and support for direct meter to meter communications). Also supported is DeviceNet, which requires a special dedicated carrier board, and Ethernet (TCP/IP), which requires an external converter box.
RS-232 or RS-485
Except for DeviceNet, all serial communication modes supported by the Tiger can function with either RS-232 or RS-
485. The limitations of RS-232 are that only one meter at a time can be connected to the serial port of a computer, and the distance from the computer to the meter is limited in practical
terms to around 30 meters (00 feet).
Up to 32 meters can be connected on an RS-485 bus. The differential current drive of the RS-485 bus ensures signal PLANNING integrity in the most harsh environments to distances up TIP to 230 meters (4000 feet). However, RS-485 generally requires a special RS-485 output card to be installed in the computer or an external RS-232 to RS-485 converter has to be used.
Select the Communication Mode Best Suited to Your Application:
Modbus (RTU)
Modbus is widely used in industry. It has a large base, and most SCADA and HMI software packages support it. See also Modbus Wrapped in Ethernet (Modbus/TCP) below.
There are 00s of HMI Touch Panel Screens that are compatible with the Tiger 320 Modbus interface.
ASCII
The meter configuration utility program and the development software use the ASCII protocol. The ASCII protocol allows you to write your own driver for your own application via the development software and should provide the quickest development time.
Print Mode
This is an ASCII based printer driver output that enables the serial port to be directly connected to any serial printer with Epson compatibility.
Printer output can be configured to occur from a setpoint
or on demand, and can be date or time stamped.
The print mode can also be used for computer data logging applications. The meter can be connected directly to a computer, set up in Microsoft Hyperterminal mode, with the meter programmed to output directly into a Microsoft Excel spreadsheet format. (Also see Data Logging).
Print Mode for Meter to Meter Communication Two or more Tiger PMCs can be connected together allowing data to be transferred from the master meter (in print mode) to the slave meter (in ASCII mode). This enables the meters to share input data and control output functions.
Master Mode
This mode is for use with macro programming to expand the meter to meter communication capability to multiples of Tiger PMCs. This is useful for building an entire system of Tiger PMCs, DECISION
sharing information and control output resources.
Ethernet
Ethernet has become a popular automation and control protocol. We supply an ethernet output option and several external ethernet converters that are compatible with the serial outputs of Tiger PMCs.
Ethernet ASCII Wrap - The ethernet output carrier board option wraps the ASCII output into the Ethernet protocol, and provides a T-base 0/00 Ethernet output socket.
This allows the Configuration Utility Program or the Macro Development Software to run over a standard Ethernet network.
This enables the Tiger meter to be configured or macro programmed from anywhere in the world via the web.
Up to 32 Tiger PMCs can be connected by RS-485 to a single Ethernet Converter, which will support up to 32 separate IP addresses.
Ethernet Modbus Wrap - This converter accepts the Tiger PMCs modbus protocol and outputs Modbus/TCP through an Ethernet T-base 0 port. This has become a standard for Ethernet on the factory floor. Many SCADA and HMI software packages connect directly to Modbus/TCP.
GI-50EB0 320 DS (NZ309)
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Page 7
Planning to Harness the Power of Tiger 320 Programmable Meter Controllers continued Planning to Use the Tiger 320 Series of Programmable Meter Controllers continued The Configuration Utility requires that an RS-232 interface board be installed in a Tiger 320 for programming.
However, if the final application does not require a serial output, the RS-232 board can be easily removed, after programming is completed, and kept for future use.
DeviceNet
DeviceNet was originally developed by Allen Bradley to connect sensors from the factory floor to PLCs. It is a deterministic real-time system, typically used to connect to networks using Allen Bradley PLCs. An optional carrier board is required for DeviceNet which replaces the standard serial output with a dedicated DeviceNet output connector.
The Tiger 320 Operating System has built-in, sophisticated data logging software. Data logging can be triggered from the PROGRAM button, digital inputs, time or alarm functions. Up to MB of optional extra on-board memory provides a powerful, multichannel data capture and acquisition system.
Tiger PMCs can be configured to log in an endless loop, overwriting the oldest data first and utilizing the maximum amount of memory available. Similar to the Black Box on an aircraft, the data can be downloaded for analysis after
a problem event occurs.
Data logging can be combined with an Ethernet converter to provide an individual Web Page with data that can be accessed by a browser over the internet.
Real-time Clock
The Tiger meter has an optional real-time clock with a 5 year lithium battery backup, ensuring that time information is not lost in the event of a power failure. It can be configured in
2 or 24-hour modes for printing and data logging applications.
Other applications of the real-time clock include activating a setpoint or control action at fixed times of the hour, day, PLANNING week, month or year. TIP
For long term data logging, a Flash Card Memory Module that plugs in to the carrier board output socket is available. Flash Cards are available from 4 to 28 meg. They can be removed and read by a standard card reader, or the data can be downloaded through the serial port or over the internet with an Ethernet converter. The module also has an SSR setpoint output to trigger an external event.
With a serial output module installed, Tiger 320 PMCs are most easily configured using the Tiger 320 Configuration Utility, which can be downloaded free from the web and run on any Windows-based PC. The utility also enables the user to access some special capabilities of the Tiger
320 which cannot be programmed manually by the front panel buttons.
When a Tiger 320 is to be used in a custom application, the utility enables all or any of the front panel programming functions to be disabled (code blanking).
Customized descriptive text can also be entered to appear with any setpoint action or event.
Different configurations can be stored in a PC for fast downloading into a meter by the user. Custom configurations can also be issued a serial number and
preloaded at the factory.
Custom Macro Programming
This powerful, easy to use development system enables programs to be written in BASIC, utilizing any combination of the hundreds of functions and thousands of registers embedded in the Tiger 320 Operating System. When your Basic program is compiled into the Tiger 320 Macro-language it is error checked and optimized. There are also numerous off-the-shelf application specific programs available. Many only need the blanks to be filled in to use them and do not require any knowledge of BASIC programming.
Macro in the
writing stage
Macros are useful when implementing any specialized control system that cannot be achieved by the standard configuration capability of the Tiger 320 Operating System. Using the development software, functions can be altered or added in a standard meter to perform the required job. This may typically include logic sequencing functions and mathematical functions.
Developing a Macro is much easier and quicker than programming a PLC, because the basic code required to customize the Tiger meter is considerably less than the ladder logic programming required for PLCs. This is due to the hundreds of functions built into the Tiger meter that can be manipulated or invoked by a macro, to fulfill the requirements of almost any application.
S c r o l l i n g annunciator
m e s s a g e s can be pro-
grammed to appear with any setpoint activation, selected events or logic inputs. Easy to read, plain text prompts can be programmed to replace the manual programming codes and provide a user-friendly interface for any custom application.
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0/
GI-50EB0 320 DS (NZ309)
RESULT PROCESSING
of Cross Channel Math
RAW DATA ANALOG, DIGITAL AND LOGIC I/O
GI-50EB0 320 DS (NZ309)
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Page 9
Configuration Utility Program
The Easiest and Fastest Way to Configure the Tiger 320 is to Use a PC with the Free Downloadable Configuration Utility Program The diagrams and instructions provided in this data sheet / user manual are intended to enable the Tiger meter to be configured and programmed manually using the front panel buttons. A system of Programming Codes is required to facilitate this type of manual programming and these are explained in detail with diagrams and examples.
However, when the Tiger meter is configured and programmed via the optional RS-232 serial port and a PC using the Configuration Utility, the system of Programming Codes is bypassed. The Configuration Utility enables all the programming options to be clearly identified by their functions for direct on-screen selection. The Configuration Utility requires that an RS-232 interface board be installed in a Tiger 320 for programming. However, if the final application does not require a serial output, the RS-232 board can be easily removed, after programming is completed, and kept for future use.
The Configuration Utility Program (which may be freely downloaded from the web) is designed to simplify and speed up the configuration and programming of any Tiger 320. Pull down menus facilitate the selection of different options and the assignment of values. A Help explanation is provided just by holding the cursor over any function box.
The configuration utility enables the user to access some special capabilities of the Tiger 320 which cannot be selected manually by the front panel buttons.
Easy Installation of Linearization Tables
The configuration utility facilitates the storage and downloading of complex linearization tables. Tables can be created in any mathematical or spreadsheet program, and copied into the utility. Linearization tables can be created to precisely match a particular sensor so that they can be installed and downloaded as part of an annual calibration procedure.
Easy Setpoint Configuration
Code Blanking
When a custom configuration is created for any specialized application, the Tiger 320 can be programmed to blank out and disable all or any manual programming codes that you do not wish the user to be able to view or access by de-selecting them in the appropriate check box.
Display Text Editing
The meter can be programmed to display customized text to appear for any setpoint or event to suit any application requirements.
The Tiger 320 supports an incredible range of setpoint options and functions. The utility makes is quick and easy to select and download any combination you may require.
Configuration Data Copying and Loading
The configuration utility program allows you to store a record of a meters configuration for later referral, or for the restoration of a desired configuration. Macros can be combined with a configuration file so they can be downloaded together and locked at the same time. When a file is locked after downloading, it cannot be copied. It can only be erased and reloaded from a master file.
Also included is the ability for the user to make notes about the configuration that can be stored as part of the file.
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GI-50EB0 320 DS (NZ309)
Tiger Development System screen showing Macro being written.
This powerful, easy to use Development System can be downloaded free from the web. It enables programs to be written in BASIC, which can utilize any combination of the hundreds of functions and thousands of registers embedded in the Tiger 320 Operating System.
When your BASIC program is compiled into the Tiger 320 Macro-language it is error checked and optimized. When your Macro is downloaded into a Tiger 320 and locked, it is locked forever. It cannot be read or duplicated, it can only be erased.
There is no back-door access. A Tiger 320 running your Macro will remain your exclusive proprietary product.
There is also a growing library of off-the-shelf application specific macro programs available. Many only need the blanks to be filled in to use them and this does not require any knowledge of BASIC. The source code is provided with these programs so they can easily be customized and/or integrated into any proprietary application-specific Macro.
On request, any custom Macro can be issued a serial number and pre-installed at the factory to operate on power-up.
Scrolling annunciator messages can be programmed to appear with any setpoint activation, selected events or logic inputs.
Easy to read, plain text prompts can be programmed to replace the manual programming codes and provide a user-friendly interface for any custom application.
Tiger Development System - Code Writing Screen
Register Labels
Code Writing Area
Double clicking on
register label in the left hand side frame
automatically inserts the function in the code window at the cursor insertion point.
Tiger Development System screen showing the Macro code being compiled successfully.
Tiger Development System screen showing the compiled Macro being downloaded into a Tiger 320 Series PMC.
GI-50EB0 320 DS (NZ309)
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32-Bit Operating System.................................................... 4 Analog Output / Analog Retransmission.......................... 21-22 Calibration of Analog Output........................................... 2 Dual (0-0V) Analog Output............................................ 2 Location of Analog Output Module................................. 55 Pinout of Analog Output.................................................. 54 Scaling of Analog Output................................................ 2, 22 Select Source for Analog Output.................................... 2 Auto Zero Maintenance for Weighing Applications......... 22 Set Parameters for CH, CH2, CH3 & CH4................... 2 Averaging - Digital Filtering............................................... 22 Set Parameters for CH, CH2, CH3 & CH4................... 2
Block Diagram of Software & Hardware........................... 9 Brightness Display............................................................. 20 Calibration........................................................................... 21-24
Calibration Thermocouple or RTD.................................. 2 Manual Calibration.......................................................... 23 Single-Point Calibration................................................... 23 Two-Point Calibration...................................................... 23 Case Dimensions................................................................ 68 Modular Construction...................................................... 55 Other Case Sizes............................................................ 3, 4 Channel 1 Settings............................................................. 38-39
32 Point Linearization...................................................... 39 Analog Input Signal Sample Rate................................... 38 Counter/Resident Timer/Clock........................................ 38 Measurement Task.......................................................... 38 Post Processing.............................................................. 39 Print Mode....................................................................... 39 Sampling Rate................................................................. 38 Serial Mode..................................................................... 39 Smart Input Module......................................................... 38 Channel 2 Settings............................................................. 40 Channel 3 Settings............................................................. 41 Channel 4 Settings............................................................. 42 Channel 1 & Channel 2 Results Processing
32 Point Linearization...................................................... 43 Maths Functions.............................................................. 43 Code 1 - Display Configuration......................................... 25-37 Configure Bargraph Colors Procedure............................ 35 Configure Bargraph Using Linear Scaling Procedure..... 36 Configure Bargraph Using Logarithmic Scaling.............. 37 Configure Data Source Procedure.................................. 3 Configure Display Format Mode Procedure.................... 32 Configure Last Digit Text Char. Procedure...................... 33 Configure Setpoint Annunciators Procedure................... 34 Configure Update at Sample Rate Procedure................ 34 Data Source - 2nd Digit [X5X]......................................... 25 Display Format - 2nd Digit [X6X]..................................... 25 Display Functions Mode.................................................. 25 Manual Loader Mode...................................................... 25 Setpoint Annunciators Mode........................................... 25 Text Character - 2nd Digit [X7X]..................................... 25 Update Display at Selected Sample Rate....................... 25 Code 2 - Channel 1 Measurement Task
and Sampling Rate........................................................ 38
Code 3 - Channel 1 Post Processing
and Serial Mode Functions.......................................... 39
Code 4 - Channel 2 Measurement Task
and Sampling Rate........................................................ 40 Code 5 - Channel 3 Functions........................................... 41
Code 6 - Channel 4 Functions........................................... 42 Code 7 - Result Processing............................................... 43 Code 8 - Data Logging & Print Mode................................ 44 Code 9 - Functions for Digital Input Pins......................... 44 Code 10 - Bargraph Display Configuration...................... 26-28 Functions for Digital Input Pins........................................ 51 Code Blanking..................................................................... 19-20 Clock/Timer
Configuration................................................................... 38, 4, 42 Optional Real-time Clock................................................ 4 Real-time Clock Configuration........................................ 38, 4, 42 Real-time Clock Date...................................................... 44 Time Stamp..................................................................... 44 Component Layout & External Devices............................ 55-56 Modular Construction...................................................... 55 Component Layout.......................................................... 56 Configuration and Programming from a PC.................... 4, 8 Configuration Utility Program
Code Blanking and Display Text Editing......................... 0 Configuration Data Copying............................................ 0 Installation of Linearization Tables.................................. 0 Setpoint Configuration..................................................... 0
Connections
Carrier Board Output Pinouts.......................................... 54 Connector Pinouts........................................................... 53 External Devices............................................................. 55 Ordering Information, Connectors................................... 66 Rear Panel Pinout Diagram............................................ 53 Controls & Indicators......................................................... 14-15 Annunciator LEDs........................................................... 4 Down Button.................................................................... 4 Error Message................................................................. 5 LED Display..................................................................... 4 Program Button............................................................... 4 Program Lockout Switch................................................. 5 Scrolling Display Text Messaging.................................... 4 Setpoint Lockout Switch.................................................. 5 Seven Segment LED Displays........................................ 4 Up Button........................................................................ 4 Control Outputs.................................................................. 6-7
Electromechanical Relays
or Solid State Control Outputs........................................ 6 I/O Logic, Rear Panel or Breakout Box........................... 7 PID or ON/OFF Control................................................... 7 Retransmission 0-0V or 4-20mA................................... 7 Custom Macro Programming
Macro Compiling and Loading........................................ Data Logging....................................................................... 4, 8, 44 Downloading Logged Data from Meter........................... 44
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GI-50EB0 320 DS (NZ309)
Display Rounding............................................................ 32 Last Digit Text Character................................................. 33
Other Display Formats.................................................... 4
Setpoint Annunciator Mode............................................. 34 Update at Sample Rate................................................... 34 Display Options
LED or LCD Displays...................................................... 6 Numeric or Alphanumeric Displays................................. 6 Push Button or Membrane Touch Pads.......................... 6 Remote Display............................................................... 6 Single or Multiple Displays.............................................. 6
Faceplates
Custom Faceplates......................................................... 67 Optional Caption Sheets................................................. 67 Custom Faceplate Design Template............................... 67 Filtering
See Averaging Samples & Averaging Window
Front Panel Controls........................................................... 4, 14-15 Front Panel Programming Codes...................................... 17-18 Main Programming Mode................................................ 7 On Demand Modes......................................................... 8 Setpoint Programming Mode.......................................... 7 View Modes..................................................................... 8 Functional Diagram............................................................ 53 General Features................................................................. 1 HMI Touch Panel Graphic Displays................................... 7 Hysteresis and Deviation................................................... 45-48, 50 Initial Setup Procedures..................................................... 19-20 Code Blanking and Macro Check................................... 9-20 Model and Software Code Version Check...................... 9 Input Signal Conditioning Modules.................................. 5, 57-63 Input Module Component Glossary................................ 63 Input Module Index.......................................................... 57 Input Modules.................................................................. 58-62
Modular Position.............................................................. 55
Ordering Information, Input Modules.............................. 64-65 Input Signals & Sensors
4-20mA or Sensor Direct................................................ 6 Sensor Linearization or Compensation........................... 6 I/Os (Opto Isolated & Logic Ports).................................... 5 Linearization
Channel Temperature Sensors.................................... 38 Channel User Loaded Tables....................................... 39 Channel 2 Temperature Sensors
and User Loaded Tables................................................. 40
Channel 3 Temperature Sensors
and User Loaded Tables................................................. 4
Channel 4 Temperature Sensors
and User Loaded Tables................................................. 42 Result of CH & CH2 User Loaded Tables..................... 43
Result Processing........................................................... 43 Modbus................................................................................ 7, 22 Model Type Check............................................................... 19 On Demand Functions....................................................... 21 Ordering Information.......................................................... 64-66 Panel Cutout........................................................................ 68 PID Control Settings........................................................... 46, 50 Power Supply...................................................................... 5, 53 Prescaling
Channel ........................................................................ 38 Channel 2........................................................................ 40 Print Mode........................................................................... 7, 39 Programming Codes........................................................... 17-18 Programming Conventions................................................ 16 Programming via PC........................................................... 4, 10-11 Registers
Registers That Can Be Selected..................................... 52 Registers That Should Not Be Selected......................... 52 Resetting and Incrementing Using Setpoints.................. 52 Relay Options...................................................................... 54 Serial Communication........................................................ 5, 7-8 ASCII............................................................................... 7
Configuration................................................................... 39
DeviceNet........................................................................ 8
Ethernet........................................................................... 7
Master Mode................................................................... 7 Modbus............................................................................ 7
Pinouts............................................................................ 54
Print Mode....................................................................... 7 RS-232 or RS-485.......................................................... 7 Setpoint Programming Mode............................................. 45-51 Data Logging................................................................... 46 Data Printing to PC......................................................... 46 Data Printing to Serial Printer......................................... 46 Display Flashing.............................................................. 46 Hysteresis or Deviation................................................... 46-48, 50
Level - Basic Mode - Prog. Procedures....................... 49 PID Control Settings....................................................... 46, 50
Real-time Clock Option................................................... 46 Real Time Control Modes............................................... 47-48 Relay Energize Functions............................................... 46
Setpoint & Relay Control Settings................................... 45, 50 Setpoint Activation Source.............................................. 46 Setpoint Activation Values............................................... 45 Setpoint Latching............................................................ 46 Setpoint Reset & Trigger................................................. 46, 5 Setpoint Tracking............................................................. 46 Timer Modes................................................................... 46, 5
Smart Input Modules
Setting Up....................................................................... 38
Table Settings.................................................................. 22, 43
Supplements
Macros.................................................................................. 4, 8, 11 Macro Check................................................................... 9-20 Manual Loader..................................................................... 25 Maths Function
Cross Channel Maths..................................................... 9, 43
See Literature Overview
Setting............................................................................. 2-22
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GI-50EB0 320 DS (NZ309)
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Page 3
alarm status.
Setpoint can be configured to indicate the rising signal trend.
Setpoint 2 can be configured to indicate the falling signal trend.
They are labeled from left to right: SP, SP2, SP3, SP4, SP5, SP6.
See Display with Faceplate and Bezel diagram.
Seven Segment LED Displays The five, seven segment LED displays are used to display the meter input signal readings.
They also display the programming codes and settings during programming. The display is available in red, green, or super bright red LEDs.
Optional Membrane Touch Pad Faceplate
LED Display
The meter has a 5-digit, 7-segment, (25.4 mm) standard red, or optional green or superbright red LED numeric display. The LED displays are used to display the meter input signal readings. They also display the programming codes and settings during meter programming.
Bargraph Display
The bargraph display is a 0 segment red, green, or tri-color bargraph that can display the signal from any of four channels or the result of a processed input signal. The bargraph display is known as the secondary display during programming.
Display Text Editing with 7 Segment Alphanumeric Display Characters
Display text, such as setpoints, can be easily edited to suit your application, by connecting the meter to a PC running the free downloadable Configuration Utility program.
Scrolling Display Text Messaging Scrolling display text messaging can be configured to run with a simple macro.
Display Text Characters
The following text characters are used with the 7-segment display.
7-SEGMENT DISPLAY CHARACTERS
Program Button
While programming, pressing the P button saves the current programming settings and moves to the next programming step.
You can move through the programming codes using the program button. The codes you pass are not affected, unless you stop and make changes using the Pressing the P and button at the same time initiates the main programming mode. To save a new configuration setting and return to the operational display, press the P button once and then press the P and Pressing the P and button at the same time initiates the setpoint programming mode. To save a new configuration setting and return to the operational display, press the P button once and then press the P and See Display with Faceplate and Bezel diagram.
button at the same time.
button at the same time.
buttons.
Up Button
When setting a displayed parameter during programming, press the button to increase the value of the displayed parameter.
When in the operational display, pressing the button initiates a viewing mode that allows you to view the readings on channels 1 and 3, setpoints 1, 3, and 5, peak, and total 1. Once into the viewing routine, pressing the button moves through each displayed parameter.
See Display with Faceplate and Bezel diagram.
button to decrease the value of the displayed parameter.
Down Button
When setting a displayed parameter during programming, press the
When in the operational display, pressing the button initiates a viewing mode that allows you to view the readings on channels 2 and 4, setpoints 2, 4, and 6, valley, and total 2. Once into the viewing routine, pressing the button moves through each displayed parameter.
See Display with Faceplate and Bezel diagram.
Annunciator LEDs
The annunciator LEDs can be programmed to indicate the
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GI-50EB0 320 DS (NZ309)
Program Lockout Switch
When the PROGRAM LOCKOUT switch is set to position 2, all programmable meter functions can be changed.
When set to the ON position, the PROGRAM LOCKOUT switch prevents any programming changes being made to the meter.
If programming is attempted, the meter displays [LoC]. The ON position allows programming parameters to be viewed but not changed.
See Display PCB without Faceplate and Bezel diagram.
Setpoint Lockout Switch
When the SETPOINT LOCKOUT switch is set to position , the setpoints can be programmed. Once the setpoint values have been entered and the SETPOINT LOCKOUT switch set to the ON position, the setpoints can be viewed but not changed.
See Display PCB without Faceplate and Bezel diagram.
Error Message [Err]
Error messages usually
occur during calibration
procedures. The three most likely causes of an error message are:
) The full scale and zero signals were too similar.
Note, the high input (full scale) signal must be at least 000 counts greater than the low input (zero) signal (positive and negative values are allowed).
2) The scaling requirement exceeded the capability of the meter
(9999 to +99999).
3) No input signal present, or incorrect connections.
The LOCK pin can also be configured in Code 9 to carry out the following functions (see Meter Programming Codes on Page 7):
Reset channel [XX].
Reset channel 2 [XX2].
Reset channel 3 [XX3].
Reset channel 4 [XX4].
Reset tare [XX5].
Reset total [XX6].
Unlatch (de-energize) all setpoints [XX7].
Hold Pin
Configure Code 9 to [X0X]. When the HOLD pin (pin 9) is connected to the COMMON pin (2) the displayed reading is frozen.
However, A/D conversions and all control functions continue and as soon as pin 9 is disconnected from pin 2 by the switch, the updated reading is instantly displayed.
The HOLD pin can also be configured in Code 9 to carry out the following functions (see Meter Programming Codes on Page 7):
Reset channel [XX].
Reset total and total 2 [X2X].
Reset total 2 [X3X].
Reset peak and valley [X4X].
Reset tare [X5X].
Set tare [X6X].
Unlatch (de-energize) all setpoints [X7X].
Test Pin
Configure Code 9 to [0XX]. When the TEST pin (pin 20) is connected briefly to the COMMON pin (pin 2) all segments of the display and setpoint annunciators light up. Five eights and five decimal points (8.8.8.8.8.) are displayed for a short period. The microprocessor is also reset during this time, losing all RAM settings such as peak and valley, and any digital input pin settings set up in Code 9.
The TEST pin can also be configured in Code 9 to carry out the following (see Meter Programming Codes on Page 7):
Reset counter channel and total 2 at power-up [XX].
Reset counters, CH, CH2, CH3, CH4, total , and total 2 at
power-up [2XX].
Reset total and total 2 at power-up [3XX].
Capture Pin
When the CAPTURE pin (pin 22) is connected to the COMMON pin (pin 2), the CAPTURE pin can be programmed for setpoint/ relay activation or macro control applications in the setpoint control settings mode of the setpoint programming mode [SPC_X] [X2X]
Common Pin
To activate the LOCK, HOLD, TEST and CAPTURE pins from the rear of the meter, the respective pins have to be connected to the COMMON pin (pin 2).
Lock Pin
By configuring Coe 9 to [XX0], connecting the LOCK pin (pin 8 on the main PCB) to the COMMON pin (pin 2 on the main PCB), both the main and setpoint programming modes are locked out. All meter programming codes and setpoints can be viewed but not changed.
The main programming mode can be entered, but only the brightness setting adjusted. After adjusting the brightness setting, pressing the P button displays [LoCK].
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The meter uses a set of intuitive software codes to allow maximum user flexibility while maintaining an easy programming process.
To configure the meters programming codes, the meter uses the three right-hand side display digits.
These are known as the first, second, and third digits and can be seen in the diagram opposite.
First
Digit
Second
Digit
Third
Digit
To explain software programming procedures, diagrams are used to visually describe the programming steps. The following conventions are used throughout the range of Tiger 320 Series document diagrams to represent the buttons and indicators on the meter, and the actions involved in programming the meter:
Symbol
Explanation
The display showing 99999 represents the OPERATIONAL DISPLAY. After the meter has been powered up, the display settles and indicates the calibrated input signal. This is known as the operational mode and is generally referred to as the operational display throughout the documentation.
All programming modes are entered from this level.
Programming procedures are graphic based with little descriptive text.
Each procedure shows a number of meter panel displays running in procedural steps from the top to the bottom of the page.
If need be, the procedure may run into two columns with the left column running down the page and continuing at the top of the right-hand column. Each action performed by the user is shown as a numbered step.
Each procedural step shows the meter display as it looks before an action is performed. The hand or hands in the procedural step indicate the action to be performed and also how many times, or for how long, the button is to be pressed.
For example, the diagram below shows the meter in the operational display. With a left hand pressing the P button and a right hand pressing the button, the user is entering the main programming mode. This is indicated by the next diagram displaying [bri] and [5].
This is the display brightness mode and is the first sub-menu of the main programming mode.
Step 1
This symbol represents the PROGRAM button.
In a procedure, pressing the program button is always indicated by a left hand. A number indicates how many times it must be pressed and released, or for how long it must be pressed before releasing.
This symbol represents the UP button.
Shown in a diagram, pressing the UP button is always indicated by a right hand.
This symbol represents the DOWN button.
Shown in a diagram, pressing the DOWN button is always indicated by a right hand.
Where two right hands are shown on the same diagram with the word OR between them, this buttons can indicates that both the be used to adjust the display: UP for increase, DOWN for decrease.
and
[Span]
[10000]
Text or numbers shown between square brackets in a description or procedure indicate the programming code name of the function or the value displayed on the meter display.
Step 2
Where a left and right hand are shown on separate buttons on the same diagram, this indicates that the buttons must be pressed at the same time.
The exceptions to this rule are when carrying out the Model and Software Code Version Check, or the Code Blanking and Macro Check.
When two displays are shown together as black on grey, this indicates that the display is toggling (flashing) between the name of the function and the value or configuration setting.
Where a number is not definable, the default setting [000] is shown.
If an X appears in the description of a 3digit programming code or in a configuration procedure, this means that any number displayed in that digit is not relevant to the function being explained, or more than one choice can be made.
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GI-50EB0 320 DS (NZ309)
The meters programming codes are divided into two modes:
the main programming mode, and the setpoint programming mode (See diagram below).
Each mode is accessible from the operational display.
Programming Tip
The easiest and fastest way to configure the Tiger 320 is to use a PC with the free downloadable configuration utility program. (see page 0)
Main Programming Mode
The main programming mode provides access to program all meter functions, except setpoints.
Setpoint Programming Mode
The setpoint programming mode provides access to program all setpoint and relay functions.
Programming Tip
To enter or exit the Main Programming Mode, press
P and at the same time
Main Programming Mode
Display Brightness
[bri]
[CAL]
Calibration Modes for Input and Output
[Cod_1]
Code 1 Display Configuration
[Cod_2]
Code 2 CH1 Measurement Task & Sampling Rate
time to exit.
[Cod_3]
Code 3 CH1 Post Processing & Serial Mode Functions
[Cod_4]
Code 4 CH2 Measurement Task & Sampling Rate
[Cod_5]
Code 5 CH3 Functions
[Cod_6]
Code 6 CH4 Functions
[Cod_7]
Code 7 Result Processing
Programming Tip
[Cod_8]
Code 8 Data Logging & Print Mode
[Cod_9]
Code 9 Functions for Digital Input Pins
[Cod10]
Code 10 Bargraph Setup
To enter or exit Programming Mode, press P and at the same time
the Setpoint
Setpoint Programming Mode
Setpoint Activation Values Mode
[SP_1]
Setpoint 1
[SP_2]
Setpoint 2
[SP_3]
Setpoint 3
[SP_4]
Setpoint 4
[SP_5]
Setpoint 5
[SP_6]
Setpoint 6
Setpoint & Relay Control Settings Mode
[SPC_1]
Setpoint 1
[SPC_2]
Setpoint 2
[SPC_3]
Setpoint 3
[SPC_4]
Setpoint 4
[SPC_5]
Setpoint 5
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the operational
View Modes
While in
display, pressing
button allows you to view but not change the following parameters:
Channel .
the
Channel 3.
Setpoint .
Setpoint 3.
Setpoint 5.
the operational While
display, pressing the button allows you to view but not change the following parameters:
Channel 2.
Channel 4.
Setpoint 2.
Setpoint 4.
Setpoint 6.
Peak (of CH).
Valley (of CH).
Total (total of CH).
Total 2 (total of CH2).
Pressing both the buttons at the same time while in either the peak, valley, total , or total 2 view modes resets the setting to the current displayed signal.
and
To view, press
the button:
View Mode
To view, press
the button:
View Mode
Ch1
Ch3
SP_1
SP_3
SP_5
PEAK
tot_1
Ch2
Ch4
SP_2
SP_4
SP_6
VALEY
tot_2
On Demand Modes
The meter can be programmed to activate the following functions on demand by pressing the P button for 4 seconds:
Tare.
Single-point calibration.
Two-point calibration.
Primary input compensation.
Manual loader (manual offset).
Print.
The on demand function is selected in the calibration mode.
After configuring an on demand function in the Calibration On Demand Mode, press the P button for 4 seconds to activate one of the following selected on demand modes.
On Demand Modes
Tare
Single-point calibration
Two-point calibration
Primary input compensation
Manual loader (manual offset)
For a full breakdown of all programming codes, see the Tiger 320 Series Programming Code Sheet (NZ101). See page 3 for more information.
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GI-50EB0 320 DS (NZ309)
Before configuring the meter, carry out the following meter configuration checks:
Model and software code version check.
Code blanking and macro check.
After powering-up the meter, check the model and software code version number and note this in your user manual.
Model and Software Code Version Check The meter model and software code version number can be checked at any time while in the operational display using the following procedure.
START HERE
Code Blanking and Macro Check Tiger 320 Series meters have the ability to hide (blank out) all or some programming codes, making them tamper-proof. This can only be done using the Texmate Meter Configuration program.
With code blanking turned ON, all main and setpoint codes that have been blanked out during factory programming are hidden, preventing them from being reprogrammed. Any codes that have not been blanked out are still visible and can be reprogrammed.
Turning code blanking OFF means all meter programming codes are visible when you enter the programming modes and can be reprogrammed.
A macro is a set of commands that run automatically when the meter is powered up. Texmate has a growing library of macros to suit a wide range of standard customer applications.
Macros can be installed in the meter at the factory during initial programming or by the customer at some later date. Macros are written and compiled using the Texmate BASIC Compiler program, and loaded into the meter using either the BASIC Compiler program or the Texmate Meter Configuration program.
Turning the macro OFF means that the meter will not perform the automatic commands pre-programmed to run with the macro.
Unless requested to blank out all or some programming codes CODE BLANKING & MACRO CHECK PROCEDURE and/or run a macro, Texmate program the meter in the code blanking OFF and macro OFF (default) setting.
To turn the code blanking and macro settings from ON to OFF:
To view, press
the
button:
START HERE
CODE BLANKING &
MACRO CHECK
PROCEDURE
Operational Display
Programming Tip
The Model and Software Code Version checking procedure can be performed at any time without interfering with other configuration settings.
Example
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GI-50EB0 320 DS (NZ309)
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CODE BLANKING & MACRO CHECK PROCEDURE 1
Step 5
Press the Prog. button.
Example
Display Configuration
Once you have read the User manual and related supplements, and installed and powered-up the meter, configure the display
to suit its designated application.
Display Brightness Mode
The display brightness mode is accessed when entering the main programming mode. It allows you to adjust the brightness of the display LEDs and setpoint annunciators without interfering with other configuration settings. It is always available, even with the PROGRAM LOCK switch set to ON, or the external LOCK pin connected to the COMMON pin, locking out the programming modes.
The display brightness can be set between 0 and 7, with 0 being dull and 7 being bright. 5 is the default setting.
Example Procedure:
Configure the display brightness setting to 7 (bright).
Step 7
Press the Prog. button.
START HERE
Operational Display
Programming Tip
Code Blanking and Macro ON/OFF settings revert to the meters original configuration settings when the meter is powered off and on.
Programming Tip
The Display Brightness setting procedure can be performed at any time without interfering with other configuration settings by entering the main programming mode.
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GI-50EB0 320 DS (NZ309)
The Tiger 320 Series meter has an extremely powerful set of input and output calibration modes. See diagram below.
ON DEMAND Functions
In this mode the meter can be programmed to activate one of the following on demand functions by pressing the P button while in the operational display:
On Demand TARE.
On Demand Single-point Calibration (requires single input source).
On Demand Two-point Calibration (requires dual input source).
On Demand Primary Input Compensation Mode.
On Demand Manual Loader Mode.
Calibration Modes
The following calibration modes are available:
Manual Calibration (requires NO input source).
Two-point Calibration (requires dual input source).
This is the calibration mode generally used to calibrate the meter for most applications. An example procedure has been included.
Calibrate Thermocouple (requires K type thermocouple
input source).
Calibrate RTD (requires RTD 385 input source).
Calibrate Smart Input Module (not available on all input
modules).
Calibrate Analog Output (requires multimeter connected to pins
6 and 7).
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[CAL] - Calibration Modes for Input and Output continued [CAL] - Calibration Modes for Input and Output continued Related Calibration Functions
The following functions are also configured in the calibration mode. See Advanced Calibration and On Demand Mode Supplement (NZ203) for further calibration details. (See page 3 for more information).
Serial Communications Properties
Selecting
Properties Mode.
[CAL][20X] enters
the Serial Communications
This mode allows you to configure the serial communications output module baud rate, parity, time delay, and address settings.
See the calibration modes diagram on Page 21 showing a breakdown of 1st, 2nd, and 3rd digits.
Also see the Serial Communications Module Supplement (NZ202) for further details on the serial communications module. (See page 3 for more information).
Set Auto Zero Maintenance Selecting [CAL][2X] enters the Set Auto Zero Maintenance Mode.
This mode allows you to configure auto zero maintenance settings for weighing applications applied to the channel selected in the 3rd digit.
See the calibration modes diagram on Page 21 showing a breakdown of 1st, 2nd, and 3rd digits.
Set Averaging Samples & Averaging Window Selecting [CAL][22X] enters the Set Averaging Samples and Averaging Windows Mode.
This mode allows you to configure the number of input signal samples to average over, and the size of the averaging window in display counts applied to the channel selected in the 3rd digit.
Selecting [CAL][22X] enters the Set Averaging Samples and Averaging Windows Mode. When in this mode, the [AV_S] menu allows you to select the number of input signal samples to average over. After setting the number of samples, moving to the [AV_W] menu allows you to configure the size of the averaging window in displayed counts.
The meter averages the input samples over the selected number of input samples (selected in the [AV_S] menu). This carries on in a continual process provided the input signal stays within the averaging window (set in the [AV_W] menu). If the sample moves out of the averaging window, the meter responds quickly to the change by displaying the non-averaged signal value. When the signal stabilizes, a new averaging window is established and averaging resumes.
You can program the number of samples you want to average the input signal over from to 255 samples. The averaging window can be set to between and 65535 counts.
See the calibration modes diagram on Page 21 showing a breakdown of 1st, 2nd, and 3rd digits.
See Input Signal Sampling Showing Averaging Window diagram opposite.
Example Procedure
The example procedure on Page 24 shows how to configure channel (CH) with an averaging sample rate of 0 counts and an averaging window of 000 counts.
Totalizer Settings
Selecting [CAL][23X] enters the Totalizer Settings Mode.
This mode allows you to configure the settings for the totalizer selected in the 3rd digit. An input value of 0000 counts is applied to a selectable time period to produce the required total value.
The cutoff is a programmable limit below which the input is not totalized.
See the calibration modes diagram on Page 21 showing a breakdown of 1st, 2nd, and 3rd digits.
Also see the Totalizing and Batching Supplement (NZ208) for further details on K factor and totalizer cutoff parameters. (See page
3 for more information).
Setup 32-point Linearization Tables Selecting [CAL][24X] enters the Setup 32-point Linearization Tables Mode.
This mode allows you to set up the linearization table or tables using the manual or auto setup modes. The table or tables can then be selected to linearize the signals on channels to 4.
See Linearization Table Notes on Page 43 for a description of memory related issues with linearization.
See the calibration modes diagram on Page 21 showing a breakdown of 1st, 2nd, and 3rd digits.
Also see the Linearizing Supplement (NZ207) for further details on linearization table setup and use. (See page 3 for more information).
Scale Analog Output
Selecting [CAL][25X] enters the Scale Analog Output Mode.
This mode allows you to calibrate and scale the analog output signal. Before calibrating the analog output in the calibration mode, the data source for the analog output must be configured in Code .
See the calibration modes diagram on Page 21 showing a breakdown of 1st, 2nd, and 3rd digits.
Also see the Analog Output Module Supplement (NZ200) for further details on the analog output module. (See page 3 for more information).
Also see Configure Data Source Procedure on Page 31 for an example of setting the analog output data source.
Calibration Mode Procedures Supplement The Advanced Calibration and On Demand Mode Procedures Supplement (NZ203) describes in detail all Tiger 320 Series meter related calibration procedures configured in the calibration mode.
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Two-point Calibration
Two-point calibration is the most commonly used method of calibrating Tiger 320 Series meters when a low and high input source is available.
Example Calibration Procedure
Calibrate channel (CH) using the two-point calibration 2-POINT CALIBRATION
method. The calibration mode display is set to [111].
The low input source is applied to the meter when setting the zero value.
The high input source is applied to the meter when setting the span value.
START HERE
TWO-POINT
CALIBRATION
From Step 6
Example
Example
Step
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Input Signal Filtering and Averaging Input signal filtering and averaging is configured in the calibration mode. Programmable averaging allows you to program the number of samples you want to average the input signal over (from to 255 samples).
A programmable averaging window provides a quick response time to large input signal changes. The averaging window can be set to between and 65535 counts.
Example Procedure:
Select an averaging sampling rate of 0 samples and an averaging window of 000 counts for Channel by setting [CAL] to [221].
See Advanced Calibration & On Demand Mode Supplement
(NZ203) for further calibration procedures. (See page 3 for more information).
START HERE
INPUT SIGNAL
FILTERING &
AVERAGING
From Step 6
Example
Step 10
Save settings
Example
Step
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All digital display configuration modes, except the display brightness mode, are configured in Code .
All bargraph display configuration modes are configured in Code 0 (See diagram below).
See Code 1 diagram on Page 32 for a breakdown of 1st, 2nd, and 3rd digit settings.
See Code 10 diagram on Page 30 for a breakdown of 1st, 2nd, and 3rd digit settings.
CODE 1 Digital Display Configuration
CODE 10 Bargraph Display Configuration
Setpoint Annunciators Mode
The setpoint annunciators mode is configured by changing the first digit in Code . The setpoint annunciators can be configured to operate as follows:
On when the setpoint activates.
All annunciators are permanently on and each one only goes
off when its setpoint activates.
All annunciators are always off (See Note on Code diagram
on Page 29).
Setpoint 1 annunciator comes on indicating a rising signal.
Setpoint 2 annunciator comes on indicating a falling signal.
Example Procedure. The example procedure on Page 34 shows how to select the setpoint annunciators to come ON when the setpoints are OFF (not active).
Update Display at Selected Sample Rate The meters default display update rate is 0.5 seconds and is
set in the second digit of Code as [X0X].
The display can be configured to update at the input signal sample rate selected in Code 2.
Example Procedure. The example procedure on Page 34 shows how to configure the display to update at 50 samples per second by setting Code to [X2X].
For these settings to take effect, the analog sample rate must be set at [2XX] in Code 2. See Code 2 Channel 1 Measurement Task and Sampling Rate on Page 38 for an example.
Manual Loader Mode
The meter can be configured to function exclusively as a manual loader by setting Code to [XX].
See Analog Output Module Supplement (NZ200) for full details on manual loader mode functions.
Display Functions Mode
The display functions mode is configured by changing the 2nd and 3rd digits in Code :
Selecting [X5X] enters the Data Source sub-menu.
Selecting [X6X] enters the Display Format sub-menu.
Selecting [X7X] enters the Last Digit Text Character sub-
menu.
Data Source 2nd Digit [X5X] The digital display is the primary display. The bargraph display is the secondary display.
To select the data source for the primary display select 5 in the 2nd digit and 0 in the 3rd digit [X50].
To select the data source for the secondary display select 5 in the 2nd digit and 1 in the 3rd digit [X51].
Selecting 5 in the 2nd digit enters a sub-menu and allows the data from one of a number of meter registers to be selected as the data source for the displays or functions selected in the third digit.
Example Procedure. The example procedure on Page 3 shows how to select the data source for the primary display.
The three digits are set to [X50]. The same example can be used for selecting the data source for the secondary display (bargraph). The three digits are set to [X51].
The 2nd digit in Code can also be used to select the data source for the remaining functions in the 3rd digit:
[X53] = Peak and Valley.
[X54] = Analog Output .
[X55] = Analog Output 2.
[X56] = Totalizer .
[X57] = Totalizer 2.
Display Format 2nd Digit [X6X] Selecting 6 in the 2nd digit enters the Display Format submenu where the following display format settings can all be configured:
Last digit rounding.
Display units (Decimal, octal, or optional 2 or 24-hour clock).
Decimal point placement.
Example Procedure. The example procedure on Page 32 shows how to configure the three display format modes for the 3rd digit selection.
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Text Character 2nd Digit [X7X] Selecting 7 in the 2nd digit allows you to select one of 54 characters and apply it to the last digit when the meter is in the operational display.
For example, if the meter was measuring a temperature, the display could be configured to display the reading with a C or an F in the last digit for C or F.
Example Procedure. The example procedure on Page 33 shows how to configure the last digit text character as C for centigrade (C) for the 3rd digit selection.
Note:
After setting any or all the above three modes [X5X], [X6X], [X7X], the Code 1 display must be set back to [X0X] to leave Code 1 and carry on programming.
Set Up Bargraph Colors This mode is where the colors of the bargraph relative to the setpoints are set. Tri-color bargraphs use the following three colors:
Green.
Orange.
Red.
The bargraph colors are not applied to specific setpoints. They are applied to whichever setpoint is configured at the lowest setting, and then to each next highest setpoint in turn.
Only one color is displayed on the bargraph at any time. As the signal changes, the color selected for the most recently activated setpoint displays
Only setpoints with the same source data as the bargraph are displayed.
If all six setpoints are used the colors are set as follows:
Set Up Bargraph Scaling This mode is where the span range of the bargraph is scaled.
The span range of the bargraph can be set between 9999 to 99999 counts. There are three methods of scaling the bargraph:
Linear.
Via Linearization Table .
Logarithmic.
Selecting 3 in the st digit enters the Set Up Bargraph Scaling mode.
Linear Bargraph Scaling
The most common method of scaling the bargraph is through the Linear Bargraph Scaling sub-menu. In this menu the bar low, bar high, and bar nominal settings are set.
Bar Low [bAr_L] is the setting in counts required at the bottom of the bargraph.
Bar High [bAr_h] is the setting in counts required at the top of the bargraph.
Bar Nominal sets the point on the bargraph at which the bar begins to light up. This can be any position between and including the bar low and bar high settings.
If bar nominal is set to the bar low setting, the bargraph behaves like a typical bargraph making the segments light up from the bottom of the bar and grow towards the top.
If bar nominal is set to the bar high setting, this makes all segments from the displayed signal to the top of the bar light up. As the signal increases, the number of lit segments between the signal and the bar high setting becomes steadily less. When the signal reaches the bar high setting no segments are lit.
Bar Nominal set to Bar Low Bar
High
Bar Nominal set to Bar High Bar
High
Color 1. Color BELOW lowest set-
point.
This is the bargraph color before it
reaches a setpoint.
Color 2. Color ABOVE lowest setpoint and BELOW the next highest.
Color 3. Color ABOVE the 2nd lowest setpoint and BELOW the next highest.
Color 4. Color ABOVE the 3rd lowest setpoint and BELOW the next highest.
Color 5. Color ABOVE the 4th lowest setpoint and BELOW the next highest.
Color 6. Color ABOVE the 5th lowest setpoint and BELOW the next highest.
Color 7. Color ABOVE the highest
setpoint.
Bar
Low
Bar
Low
Example of
Bargraph Colors
Any one of the colors (green, orange, red, or OFF meaning no color) can be applied to each color setting (See Example:
Bargraph Colors diagram above). Selecting 2 in the st digit enters the Set Up Bargraph Colors mode. Selections for the 2nd and 3rd digits are not relevant at this point.
Example Procedure. The example procedure on Page 35 shows how to configure the bargraph colors.
No Signal
Signal Applied
No Signal
Signal Applied
Bargraph Nominal Set Low or High
Setting bar nominal to the midpoint between bar low and bar high makes the bargraph behave like a typical center zero bargraph. This means the bargraph lights up at the center of the bar and moves either up or down the bar depending on the displayed signal.
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For example, if the meter's full scale range is 20,000 counts, the midpoint is 0,000 counts. If a signal of 0,000 counts is applied, only one segment at the 0,000 count mark lights up. If a signal of 7,000 counts is applied, the segments between the center segment (0,000 counts) and the 7,000 count mark light up.
If a signal of 5000 counts is applied, the segments between the center segment (0,000 counts) and the 5000 count mark light up.
17,000
5000
20,000
10,000
Typical Center Zero Bargraph
An added feature of this bargraph is that it can also be nonsymmetrical. This means that the bar nominal setting does not need to be set at the mid-point between bar low and bar high.
For example, if the bargraph is configured to display 200 to
800 C, bar low is set to 200 counts and bar high is set to 800 counts. Bar nominal is set to 0 counts. If a signal of 50 C is applied, the bar lights from 0 down to 50. If a signal of 600 C is applied, the bar lights from 0 up to 600.
Example Procedure. The
example procedure on
Page 36 shows how to scale the bargraph using linear scaling.
800
600
Bar Nominal
50
200
Bargraph Scaling using Linearization Table 1 When set in this mode, the register selected to be displayed on the bargraph display (Code set to [XX]) is first processed through a 32-point flexible linearization table (Table ) before being displayed.
This can be used, for example, if channel is the required digital display while the bargraph display is the square root of channel .
See Linearization Supplement for full details to set up linearization Table 1.
Selecting 3 in the st digit and 1 in the 3rd digit selects Bargraph scaling via Linearization Table .
Example Procedure. To scale the bargraph using Linearization Table , follow the Scale Bargraph using Linear Scaling Procedure on Page 36. Ensure the secondary (bargraph) display has been set up in Code and Linearization Table has been formatted and selected for the required application.
Logarithmic Bargraph Scaling
Logarithmic scales are used in a wide variety of measurements.
Probably the most well known logarithmic scale is the Richter scale for measuring earthquakes. Other log scales used include sound level (dB), radio frequency signals, power levels (dBm), and numerous radiation signals.
In all logarithmic scales a reference level is required that is the level at 0 dB. For example, in an RF measurement 0 dBm is at a reference of mW.
The scale is calculated from:
0 log0
counts (input)
reference
If the meter is scaled so that:
mW = 00 counts and W = 00,000 counts
Then the reference for 0 dBm would be set to 00 counts:
10 log10
(input)
100
= 0 dBm
Decade
(Counts)
00
000
0,000
00,000
,000,000
dBm
20
0
Non-symmetrical Zero
Bargraph
Now every 0 dBm represents a decade, the bargraph can be scaled to a different amount of bars per decade (as set in the 3rd digit).
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Peak and Valley on Bar. Selecting [XX] means that peak and valley are displayed as flashing segments and are updated as they change.
The setpoints are not displayed.
Min/Max with
Setpoints.
Selecting [X4X] means that the segments of the bar remain lit over the minimum and maximum signal variations. The setpoints are displayed as flashing segments.
This is a useful mode for seeing process variations at a glance.
Note:
When moving from another display format to the Min/Max with Setpoints mode, the peak and valley settings must be set to the current settings by entering the Peak View mode or Valley View mode and pressing the UP and DOWN buttons at the same time.
Example: Peak and Valley on Bargraph
When moving from Min/Max with Setpoints mode to another display format, the bar nominal [bAr_n] setting must be reset to its original settings in Code 10 [3XX].
Bar Only. Selecting [X7X] means that only the bargraph display signal is displayed on the bar. Setpoints and peak and valley are not displayed.
Example: MIN and MAX on Bargraph
Example of Bars per Decade
Reference. This is the number of counts displayed for a 0 dB reference. Range: to 99999 counts.
Bar Nominal. See Bar Nominal description under heading:
Linear Bargraph Scaling.
Selecting 3 in the st digit and 3, 4, 5, 6, or 7 in the 3rd digit enters the Set Up Scaling for Logarithmic Bargraph sub-menu:
Selecting 3 in the 3rd digit sets the log to 0 Bar/Decade.
Selecting 4 in the 3rd digit sets the log to 20 Bar/Decade.
Selecting 5 in the 3rd digit sets the log to 25 Bar/Decade.
Selecting 6 in the 3rd digit sets the log to 33 Bar/Decade.
Selecting 7 in the 3rd digit sets the log to 50 Bar/Decade.
Example Procedure. The example procedure on Page 37 shows how to scale the bargraph using example logarithmic settings.
Bargraph Display Format
After the bargraph colors have been set and the bargraph scaled, the display format can be set. This is normally the final setting. The 2nd digit selects the format of the bargraph display. There are four display format settings available:
Setpoints on Bar. Selecting [X0X] means that the setpoints are displayed on the bar as flashing segments in the current display color.
When the display color changes, the setpoint segments change to that color. When the bargraph lights up on or beyond a setpoint, the setpoint segment goes out.
Example of Setpoints on Bargraph
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GI-50EB0 320 DS (NZ309)
Configure Data Source Procedure The following example procedure describes how to select the source of the data to be displayed for the third digit selection.
Example Procedure:
Configure the Primary Display with the display [diSP] as the data source by setting Code to [X50]. See diagram at the bottom of the page for data source selection options.
START HERE
CONFIGURE
DATA SOURCE
Step 1
Enter Brightness Mode
From Step 5
Example
Step 2
Pass Brightness and
Calibration Modes
and enter Code 1
Programming Tip
Step 7
Select [000] to leave Code 1
Programming Tip
Step 8
Save Data Source
setting
0 Primary Display
1 Second Display (See Note)
2 Third Display (See Note)
3 Peak/Valley
4 Analog Output 1
5 Analog Output 2
6 Totalizer 1
7 Totalizer 2
Step 9
Exit Code 2. Return to Operational Display
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The following example procedure describes how to configure the display format mode for the 3rd digit selection and covers:
Last Digit Rounding.
Display Units.
Decimal Point Placement.
Example Procedure:
Configure the display format mode for channel with rounding by 2s, decimal display units, and the decimal point placed between display digits 4 and 5 by setting Code to [X61].
CONFIGURING THE DISPLAY FORMAT PROCEDURE
START HERE
CONFIGURE
DISPLAY
FORMAT
Step 1
Enter Brightness
Mode
From Step 5
Example
Step 6
Step 7
Select [000] to leave Code 1
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The following example procedure describes how to select the last digit text character.
Example Procedure:
Configure channel with C as its last digit text character (for C) by setting Code to [X71]. See diagram opposite. CONFIGURING THE TEXT CHARACTER PROCEDURE
START HERE
CONFIGURE
LAST DIGIT
TEXT CHARACTER
Step 1
Enter Brightness
Mode
From Step 6
Step 7
Select [000] to leave Code 1
Step 8
Save Last Digit Text Character setting
Step 6
Example
Step
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Configure Setpoint Annunciators Procedure The following example procedure describes how to configure setpoint annunciators.
Configure Update at Sample Rate Procedure The following example procedure describes how to configure the display to update at the sample rate selected in Code 2.
Example Procedure:
CONFIGURING THE SETPOINT ANNUNCIATORS PROCEDURE Configure the setpoint annunciators to come ON when the setpoints are OFF (not active) by setting Code to [1XX].
Example Procedure:
UPDATE AT SAMPLE RATE PROCEDURE Update the display at the sample rate selected in Code 2 [2XX] by setting Code to [X2X].
START HERE
CONFIGURE
SETPOINT
ANNUNCIATORS
Step 1
Enter Brightness
Mode
START HERE
CONFIGURE
UPDATE AT
SAMPLE RATE
Step 1
Enter Brightness
Mode
Step 3
Select SP Annunciators
setting [1XX]:
Step 3
Select update at sample rate setting [X2X]:
Step 4
Save the settings and enter Code 2
Step 4
Save setting and
enter Code 2
Step 5
Exit Code 2.
Return to
Operational Display
Step 5
Exit Code 2.
Return to
Operational Display
Programming Tip
The Configuring Setpoint Annunciators and the Update at Sample Rate procedures can be combined so that Code could be set to [2X] (for the above examples) in a single procedure.
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START HERE
CONFIGURE
BARGRAPH
COLORS
From Step 6
Example
Example
Step 10
Example
Step
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START HERE
CONFIGURE
BARGRAPH
LINEAR SCALING
From Step 6
Example
Step
Example
Step 10
Step 11
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Scale Bargraph using Logarithmic Scaling Procedure CONFIGURE BAR LOGARITHMIC SCALING
From Step 6
START HERE
CONFIGURE
BARGRAPH
LOGARITHMIC
SCALING
Step 8
Example
Step 5
Example
Step
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The Tiger 320 Series meter can be configured to measure almost any input signal. The measurement task and sampling rate for Channel (CH) is configured in the three digits of Code 2. The diagram below lists the available configuration selections in Code 2.
Example Procedure:
Configure CH for a voltage input with 0 samples/second (60 Hz) sampling rate and output rate of 0. seconds by setting Code 2 to [000].
START HERE
CONFIGURE CH1
MEASUREMENT
TASK & SAMPLING
RATE
Step 3
Example
Step 4
Save setting and
enter Code 3
Step
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Post processing functions refer to functions that occur to the input after it has been configured and scaled.
Example Procedure:
Configure the meter to apply square root to the CH signal by setting Code 3 to [100].
Post processing for Channel (CH) is configured in the first digit of Code 3. The diagram below lists the available post processing configuration
selections in Code 3 (st digit only).
From Step 3
START HERE
CONFIGURE CH1
POST PROCESSING
FUNCTIONS
Step 1
Enter Brightness Mode
Step 2
Pass Brightness Mode, Calibration Mode, Codes 1 and 2, and enter Code 3
Step 4
Save Post Processing
setting
Step 5
Exit Code 4.
Return to
Operational Display
Step
Print Mode Data Printing Direct to Serial Printer Print mode data logging is a simple method of capturing data using the meters print mode. The data can be printed directly to a serial printer from the meter.
The print mode uses the meters serial communications port to connect to a remote serial printer. The data can be printed with or without a Day: Month: Year or Hours: Minutes: Seconds time stamp.
Programming tip
For full details on the Serial Mode, see Serial Communications Output Module supplement.
Print Mode Data Printing Direct to PC The print mode can also be used to print data to a PC where it is logged in a Windows Terminal program.
The print mode uses the meters serial communications port to connect to the PC. The data can be logged with or without a Day: Month: Year or Hours: Minutes: Seconds time stamp.
Time stamp settings are configured in Code 8.
Time stamp settings are configured in Code 8.
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Code 4 is a single code that combines all the configuration and post processing functions available for Channel 2.
When a dual input signal conditioner is installed, the second input signal is processed and displayed on CH2.
Measurement task and 32-point linearization for CH2 is configured in the st and 2nd digits of Code 4. The diagram opposite lists the available configuration selections in Code 4.
Example Procedure:
Configure CH2 for a direct voltage input with no linearization by setting Code 4 to [010].
See I-Series Input Modules Guide (Z87) for procedures to set up a dual input module.
CONFIGURING CH2 MEASUREMENT TASK PROCEDURE
START HERE
CONFIGURE CH2
MEASUREMENT
TASK
From Step 3
Step 1
Enter Brightness Mode
Step 2
Pass Brightness Mode, Calibration Mode, and
Codes 1 to 3, and enter Code 4
Step 4
Save CH 2 Measurement Task setting
Step 5
Exit Code 5.
Return to
Operational Display
Step
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Code 5 is a single code that combines all the configuration and post processing functions available for Channel 3.
When a triple input signal conditioner is installed, the third input signal is processed and displayed on CH3.
Post processing and measurement task functions for CH3 are configured in the st, 2nd, and 3rd digits of Code 5. The diagram opposite lists the available configuration selections in Code 5.
Example Procedure:
Configure CH3 to display the square root of a voltage input by setting Code 5 to [11X].
See I-Series Input Modules Guide (Z87) for procedures to set up a triple input module. CONFIGURING CH3 FUNCTIONS PROCEDURE
START HERE
CONFIGURE CH3
FUNCTIONS
Step 1
Enter Brightness Mode
Step 2
Pass Brightness Mode, Calibration Mode, and
Codes 1 to 4 and enter Code 5
From Step 4
Step 5
Exit Code 6.
Return to
Operational Display
Step
Step 4
Save CH3 setting
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Code 6 is a single code that combines all the configuration and post processing functions available for Channel 4.
When a quad input signal conditioner is installed, the fourth input signal is processed and displayed on CH4.
Post processing and measurement task functions for CH4 are configured in the st, 2nd, and 3rd digits of Code 6. The diagram opposite lists the available configuration selections in Code 6.
Example Procedure:
Configure CH4 for a direct display of voltage input by setting Code 6 to [01X].
See I-Series Input Modules Guide (Z87) for procedures to set up a quad input module.
START HERE
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The third digit of Code 7 performs various math functions between channel and channel
2 and stores this data in the result register.
The data in the result register can then be further processed by the selections made in the st and 2nd digits.
Example Procedure:
Configure Code 7 to add the input of CH and CH2 and directly display the result by setting Code 7 to [003].
See I-Series Input Modules Guide (Z87) for procedures to set up a dual, triple, or quad input module.
Linearization Table Notes
CONFIGURING CH1 & CH2 RESULT PROCESSING PROCEDURE
START HERE
CONFIGURE
RESULT
PROCESSING
Step 1
Enter Brightness Mode
Step 2
Pass Brightness Mode, Calibration Mode, and
Codes 1 to 6 and enter Code 7
From Step 4
Step 5
Exit Code 8.
Return to
Operational Display
Step
Step 4
Save CH1 & CH2 Result Processing setting
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Up to 4000 samples can be logged within the meter in the cyclic or linear FIFO mode and saved for later downloading to a PC, using a terminal evaluation program, or printing directly to a serial printer.
Data logging can be triggered (activated) from a setpoint, the program button, or from an external switch. See the 3rd digit in the diagram below.
Data from up to four selectable registers can be logged with one of the following printer or spreadsheet style time and date stamps. All time and date stamps are generated from an optional real-time clock (see the 2nd digit in the diagram below):
No time stamp.
Month - Day - Year. Hours:Minutes:Seconds.
Day - Month - Year. Hours:Minutes:Seconds.
Hours:Minutes:Seconds.
Printer style time and date stamps have a carriage return and line feed. Spreadsheet style time and date stamps are continuous on a single line.
See Serial Communications Module Supplement (NZ202) for full details on the Data Logging and Print Mode Options.
The TEST, HOLD, and LOCK pins are located at the rear of the meter to accommodate external switched digital inputs.
When switched to the COMMON pin, they can be programmed in Code 9 to perform remote resetting functions to add to the functionality of the meter.
Note:
CAPTURE, HOLD, and LOCK pins can be a setpoint activation source. See Setpoint Programming mode.
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GI-50EB0 320 DS (NZ309)
All setpoint activation and control settings are selected and configured using the front panel buttons in the setpoint programming mode. Or, software configured via the meter configuration utility program if the meter is connected to a PC through the serial port. The meter has six software driven setpoints, independently configured to operate within the total span range of the meter and the selected input module.
Relay Output Modules
Five standard relay output module options provide a selection of 20 relay configuration options for 320 Series meters.
Three electromechanical relay output modules support a combination of 5 A Form A and 0 A Form C relays providing 2 configuration options. A solid state relay (SSR) output module supports 400 V, 20 mA DC SSRs and another SSR output module supports 400 V, 40 mA AC / DC SSRs providing a further eight configuration options.
A 22 opto-isolated I/O plug-in module can support six inputs and up to 6 outputs. The standard plug-in module has six inputs and six outputs that can be extended to 6 outputs with a 0 output add-on board.
320 Series Relay Output Module Options
Setpoint Programming Mode
To enter press P and buttons at the same time
Setpoint Activation Values Mode
Enter these menus to set setpoint (SP) activation values
[SP_1]
Setpoint 1 Default setting = 8000 Setpoint 1
[SP_2]
Setpoint 2
Default setting = 8000
[SP_3]
Setpoint 3
Default setting = 5000
Max Four
140 mA
(AC/DC)
Max Four
210 mA
(DC Only)
Max Four
5 A Form A
Max Two
5 A Form A Max Two
10 A Form C
Max Six
5 A Form A
Optional Opto-isolated
22 I/O Plug-in Module
Digital Outputs
Add-on Board
(10 outputs)
Standard I/O
Plug-in Module
(6 in/6 out)
Setpoint Programming Mode
See the Setpoint Programming Mode Logic Diagram opposite.
The setpoint programming mode is entered by pressing the meters P and
buttons at the same time.
Setpoint Activation Values
Each setpoint activation value is individually programmed. Setpoint activation values can be set within the total span range of the meter and the selected input module.
Setpoint and Relay Control Settings See the Setpoint and Relay Control Settings diagram on Pages 50 and 51.
[SP_4]
Setpoint 4
Default setting = 5000
[SP_5]
Setpoint 5
Default setting = 0000
[SP_6]
Setpoint 6
Default setting = 0000
Setpoint & Relay Control Settings Mode
Enter these menus to configure SP control settings
See Page 49
for a Level 1 Setpoint & Relay
Control Settings
diagram.
[SPC_1]
Setpoint 1
[SPC_2]
Setpoint 2
[SPC_3]
Setpoint 3
[SPC_4]
Setpoint 4
[SPC_5]
Setpoint 5
The control settings provide access to the following setpoint and relay functions for configuration using the meters st, 2nd, and 3rd digits:
1st Digit Relay Energize Functions.
2nd Digit Setpoint Activation Source.
3rd Digit Setpoint Delay, Timer, and Reset and Trigger Functions.
Setpoint Mode Logic Diagram
[SPC_6]
Setpoint 6
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Relay Energize Functions
All setpoints activate at the setpoint value.
All relays/setpoints are programmable to energize above or below the setpoint value.
Setpoint Activation Source
Setpoints activate from any input channel, selected meter register, or external switched inputs (digital input pins).
Setpoint Latching
Setpoints can be programmed in relay latching modes.
Setpoint Reset & Trigger Setpoints can be programmed to reset selected registers, or be manually reset. They can also trigger a data print or a data log.
Setpoint Tracking
Setpoint tracking can
be applied to setpoints configured in the hysteresis, deviation, or PID modes.
Display Flashing
Display flashing can be applied to setpoints configured in the hysteresis or deviation modes.
Each setpoint can be programmed to make the display flash on and off while the setpoint is active, and keep it flashing until the setpoint de-activates.
Real-time Clock Option
Any setpoint can be programmed to operate from the real-time clock option.
Data Logging
Any setpoint can be programmed to log data within the meter (up to
4000 samples).
Data Printing to Serial Printer Any setpoint can be programmed to send data directly to a serial printer.
Data Printing to PC Any setpoint can be programmed to send data directly to a connected PC.
Hysteresis or Deviation
Each relay can operate in a hysteresis or deviation mode.
PID Control Settings
The PID (proportional, integral, derivative) control function provides exceptional control stability during control process applica-
tions. PID control is available from the following outputs:
Setpoint / relay output.
Analog output.
Relay and analog output at the same time.
PID control from the setpoint / relay output is available from SP and SP2 only.
There are two PID control outputs available via the analog output:
PID stored in register 50.
PID2 stored in register 5.
PID Control
Timer Modes
Each setpoint can be programmed to operate the relay in one of the following seven resident timer modes:
Normal Mode Timer
Single actuation, delay-on-make (DOM) and delay-onbreak (DOB).
Normally OFF/Pulsed ON Timers
Repeat ON Mode Timer multiple actuation, program-
mable offand on-time.
Pulse ON Mode Timer single actuation, programmable
DOM and maximum on-time.
1-Shot ON Mode Timer single actuation, programmable
DOM and minimum on-time.
Normally ON/Pulsed OFF Timers Repeat OFF Mode Timer multiple actuation, program-
mable offand on-time.
Pulse OFF Mode Timer single actuation, programmable
DOB and maximum off-time.
1-Shot OFF Mode Timer single actuation, program-
mable DOB and minimum off-time.
Hysteresis or Deviation
Each setpoint can be individually programmed to energize the relay in the hysteresis or deviation mode, with or without initial startup inhibit.
Hysteresis (deadband) is the programmable band above and below the setpoint value that determines when and for how long the relay is energized or de-energized. The setpoint can be programmed to energize the relay above or below the setpoint value.
The hysteresis setting can be any value between 0 and 65535 counts. The number of counts selected act both positively and negatively on the setpoint, forming a hysteresis band around the setpoint.
For example, if the setpoint setting is 500 counts and the hysteresis setting is 0 counts, the hysteresis band around the setpoint setting is 20 counts, starting at 490 counts and ending at 50 counts.
Note:
If hysteresis is set with ZERO counts, the relay energizes AT or ABOVE the setpoint value.
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GI-50EB0 320 DS (NZ309)
Deviation (passband) is the programmable band around the setpoint in which the setpoint can be programmed to energize the relay inside or outside the deviation band.
The deviation setting can be any value between and 65535 counts. The number of counts selected act both positively and negatively on the setpoint, forming a deviation band around the setpoint.
For example, if the setpoint setting is 000 counts and the deviation setting is 35 counts, the deviation band around the setpoint setting is
70 counts starting at 965 counts and ending at 035 counts.
Deviation
Initial Start-up Inhibit.
On power-on, start-up inhibit prevents the relay from energizing on the first setpoint activation cycle. Depending on how the meter has been programmed, initial start-up inhibit either functions during a falling input signal, or during a rising input signal.
Relay Time Control Modes The following time control mode settings can cover almost every relay timer application.
All setpoints can be individually programmed to operate a relay in one of the following time control modes above or below the setpoint value.
Hytseresis
Normal Mode
This mode individually programs a relays setpoint with delayNormal Mode
on-make (DOM) and delay-on-break (DOB) settings.
SP ON
RLY ON
RLY OFF
Normally OFF / Pulsed ON Modes These are delay modes were the relay is normally off and pulses on when the setpoint activates.
Repeat ON Mode
Repeat ON Mode
Multiple actuation, programmable on and off time settings.
SP ON
Adj.
ON-T
Adj.
OFF-T
Adj.
ON-T
Pulse ON mode (Programmable ON-time) Pulse ON Mode (Prog. Max ON-time) Single actuation, programmable DOM and on time settings.
SP ON
1-Shot ON mode (Programmable Minimum ON-time)
Single actuation, programmable DOM and minimum on time 1-Shot ON Mode (Prog. Min. ON-time) settings.
SP ON
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Level 1
Setpoint & Relay Basic Mode
This is an easily programmable mode for users who require the
following basic setpoint and relay functions:
First Digit Relay Energize Functions
Relays programmed to energize above or below the
setpoint value.
Second Digit SP Activation Source
Setpoints programmed to activate from selectable meter registers or one of six external switched inputs.
Third Digit Setpoint Latching
Relays programmed with latching and manual reset
options.
Level 2
Setpoint & Relay Intermediate Mode
Level 2 uses all Level functions and is further extended by the following programmable modes. The functionality of the relay energize functions are extended by allowing the relays to be programmed with or without initial start-up inhibit.
Hysteresis, Deviation & PID Mode
This mode adds extra functionality to the basic mode by providing programmable hysteresis or deviation settings for all setpoints, or PID control from setpoints SP and SP2.
Timer Modes
These modes add even more functionality to the basic and intermediate mode by providing each setpoint with a choice of one of seven resident programmable timers.
Level 3
Setpoint & Relay Advanced Mode
Level 3 uses all Level and Level 2 functions combined with reset and trigger functions to provide an extremely powerful advanced mode.
Level 3 enables you to program all setpoints individually for operations normally requiring sophisticated controllers.
Normally ON / Pulsed OFF Modes These are delay modes were the relay is normally on and pulses off when the setpoint activates.
1-Shot OFF mode (Programmable Minimum OFF-time)
Single actuation, programmable minimum off time and DOB 1-Shot OFF Mode (Prog. Min. OFF-time) settings.
SP ON
SP OFF
RLY ON
RLY OFF
Adj.
DOB
Adj.
MIN OFF-T
Pulse OFF mode (Programmable OFF-time) Pulse OFF Mode (Prog. MAX OFF-time) Single actuation, programmable off time and DOB.
SP ON
SP OFF
RLY ON
RLY OFF
Adj.
DOB
Adj.
MAX
OFF-T
Repeat OFF Mode
Repeat OFF Mode
Multiple actuation, programmable off and on time settings.
SP ON
Adj.
OFF-T
Adj.
ON-T
Adj.
OFF-T
Each setpoint can be individually configured for basic to advanced operations in the following three levels. Each operational level is designed to provide only the required relevant setpoint and relay functions.
The modes at Level 2 and Level 3 can be set to OFF for each individual setpoint, ensuring that no other functions are programmed to influence the setup.
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GI-50EB0 320 DS (NZ309)
Example Procedure:
The following procedure describes how to program setpoint (SP) for the following Level 1 setpoint and relay functions: LEVEL 1 SETPOINT CONFIGURATION
SP to activate from Channel (CH).
Relay to energize above or below SP value.
Relay to latch with manual relay reset.
See Setpoints and Relays Supplement (NZ201) for procedures to program all setpoint and relay operational levels (Level 1 to Level 3). (See page 3 for more information).
START HERE
CONFIGURE
LEVEL 1
SETPOINT & RELAY
FUNCTIONS
Step 1
Enter Setpoint
Programming Mode
From Step 5
Example
Step 3
Save SP1 activation
value setting
Example
Step 7
Save SP1
control settings
Step 9
Save SP1
control settings
Step 5
Enter SP1
source sub-menu
Example
Step
Step 10
Exit SPC_2.
Return to
Operational Display
Programming tip
All required setpoint activation values (SP to SP6) can be adjusted before programming setpoint and relay control function settings. See Setpoint Mode Logic Diagram on Page 50.
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Setpoint & Relay Control Settings Diagram
The diagram below and continued on Page 5 shows the st, 2nd, and 3rd digit control settings for the setpoints and relays.
Programming Tip
PXX
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GI-50EB0 320 DS (NZ309)
Programming Tip
PXX
Programming Tip
GI-50EB0 320 DS (NZ309)
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Page 5
A Tiger 320 Series meter has 6,44 registers which are provided for use by the operating system and the powerful Custom Macro Programming system (see page ).
40 Manually Selectable Registers Using the front panel buttons, there are 40 registers that may be selected for use within the following functions:
[CodE_1] - Display Configuration [X50]. Selection of a register as the data source for displays, peak and valley, totalizers and analog outputs. (See pages 29 & 3)
Setpoint Control Settings [X1X]. Selection of a register
as the data source for a setpoint. (See Page 50)
Setpoint Control Settings [XX7]. Selection of a destination register that is to be reset by a setpoint with the contents of a selected source register. (See Page 5)
Setpoint Control Settings [XX7]. Select which registers contents are to be copied into the destination register by a setpoint. (See Page 5)
The 40 registers that can be selected as a data source, a reset source or a reset destination for the functions above are shown in the table on the right.
The table shows, in seven columns, the functions where these registers can be used.
Where a register is more likely to be used in a particular function, a closed circle is shown in the column. For those functions where a register is less likely to be used, an open circle is shown.
No register number is shown for the first functions, because these functions are identified in the display menu for direct selection by their code names.
When cycling through the Registers Menu and then Registers to 244, the numerical Register Set will increment through each decade in turn, from to 0, while the button is held down. When [200] is reached, [oFF] or [tArE] will be displayed. To select a specific number set, the button should be released and pressed again each time the left most decade displays the desired number for that decade.
To quickly exit the numerical to 244 Register Set, hold the button down while cycling through the decades, and release it when [oFF] or [tArE] appears.
Registers that Should Not be Used The following registers are contained within the selectable to 244 Register Set, but they should not be selected because they are either reserved for future use, or for use by the operating system only:
15, 38, 47-48, 52-53, 61-64, 123-128, 140-141, 234-244
Any selection of these Registers may cause a malfunction.
Resetting and Incrementing Using Setpoints Setpoints may be used to reset and/or increment registers.
In the example shown on the right, 2 liter soft drink bottles are being filled and packed 2 to a case. Using the setpoint reset and increment feature, the number of bottles and the total number of filled cases is easily calculated and displayed.
Totalizer counts from 0 to 2, resets, and repeats. CH 2 counts from 0 to 2, resets, and repeats.
USING SETPOINTS TO INCREMENT AND RESET REGISTERS
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Analog Outputs
Pin 44 Positive (+) analog output .
Pin 45 Negative () analog output and 2.
Pin 46 Positive (+) analog output 2.
Serial Outputs RS-232 or RS-485
Electromechanical Relays
There are 8 relay options available using the relays mounted on the main processor board. The main processor board supports relay combination options using up to four electromechanical relays. A maximum of two 5 A Form A and two 0 A Form C relays. Relay outputs for one to four setpoints can be ordered for factory installation on the main board in any required combination of up to two 0A form C and two 5A form A relays.
Relay Modules with up to two 5A Form A Relays, and up to two 10A Form C Relays
Relay Modules with up to four 5A Form A Relays
Relay Modules with five or six 5A Form A Relays
TTL / 5V Output
Flash Card Memory Module
Relay Modules with up to 4 Independent 400V (210mA DC only) or (140mA AC/DC) SSRs
Open Collector Output
Opto Isolated I/0 Module for External Breakout Box with 6 Outputs & 6 Inputs, or 16 Outputs & 6 Inputs
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GI-50EB0 320 DS (NZ309)
incorporates,
Modular Construction
The Tiger 320 Series of 32-bit Programmable Meter Controllers in one instrument, all the different functions required by todays automation and process control applications. This is made possible by modular construction, around standard case sizes, built to American, European, and Japanese standards.
The range comes with a wide variety of display options, including 5 or 6-digit numeric or alphanumeric displays, 6-digit LCD displays, and 5 or 0-segment red, green, or tri-color straight and circular bargraphs.
All meters are housed in one of three DIN case sizes, or the popular 4 ANSI case, and provide the ideal solution for your measurement and process control applications.
Modular construction ensures you dont have to pay for unnecessary hardware. Simply order the input and output options to suit your application.
Analog
Output
Module
Standard Serial
Output Module
(RS-232 or RS-485)
Serial Output
R.J. Socket
Pins 37-42
Pin 46
Pin 44
Pin 35
Pin 28
Output
Carrier
Board
Bargraph
Display
AC / DC
Power Pins
24, 25
Relay
Output
Module
Input Signal
Conditioner
Pins -6
Input Signal
Conditioner
Digital
Display
Display
Board
Main/Processor
Board
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Display Board
Analog Output Module PCB
Current or
Voltage
Selection
Header
CURRENT
Position
VOLTAGE
Position
Available in Single (0~4-20mA or 0-0V) or Dual (0-0V & 0-0V)
Standard Serial Output Modules RS-232 or RS-485
Note:
Externally mounted
Ethernet compatible
communication output
modules are available
that connect directly
to the standard (RS-
232 / RS-485) serial module outputs.
RS-485 Output Module PCB
RS-232 Output Module PCB
Opto Isolated I/O Modules Connect to External DIN Rail Mounting Breakout Box
0 Digital Outputs
Add-on Board
3M IDC
Cable
DIN Rail Mounting Breakout Box with Screw Terminal Blocks
Standard 6 Digital
Inputs/6 Digital Outputs
DIN Rail
Relay Module
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GI-50EB0 320 DS (NZ309)
Over 120 plug-in signal conditioning modules are available to suit almost any input signal, control, or data output. Modules can be easily inserted through the rear of the meter without disassembly of the case or removal from the panel. Many modules are exclusively designed for the Tiger 320 Series, and some can also be used with the Leopard and Lynx Family panel meters and bargraphs.
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Many additional input modules are available and others are constantly being developed. Check with your local distributor or see Texmates web site at: www.texmate.com for updated information. Pre calibrated I-Series Input Modules, that have span or zero potentiometers, can be interchanged between any I-Series compatible meter, without recalibration, because all of the analog scaling and reference circuitry is self-contained within the module. Where appropriate, all the standard ranges are designed to be header selectable by the user, and our unique SPAN ADJUST Header facilitates scaling to almost any required engineering unit. See Input Module Component Glossary for more information.
Unless otherwise specified, we will ship all modules pre calibrated with factory preselected ranges and/or scaling as shown in BOLD type. Other pre calibrated standard ranges or custom ranges may be ordered. Factory installed custom scaling and other custom options are also available.
Symbols Indicate Module Compatibility Within Meter Families
*A module code shown below a compatibility symbol indicates another module is available, similar in function, which may be more suited for use with that family.
**Modules which are compatible are listed below the Model Specific Symbol.
ALL MODELS
SOME MODELS MODEL SPECIFIC
Indicates a SMART MODULE. Smart Modules incorporate their own microprocessor and A/D converter. They communicate digitally with the Tiger 320 Operating System. Some also have their own SSR outputs.
IA02: AC Volts Scaled RMS, 200mV/2V/20V AC
IA12: AC Millivolt RMS Sigma Delta
ID01: DC Volts, 2/20/200V/Custom w/24V DC Exc
ID06: DC Volts 2/20/200/Custom V DC with External Decimal Select
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GI-50EB0 320 DS (NZ309)
ID08: DC Volts, 2/20/200/Custom V DC with External LIN Table Select
IDT2: Dual RTD Input, 2/3-wire, 100 Pt
IDP2: Dual Input, 3-wire RTD and 4-20mA
IDT3: Dual Input, 3-wire RTD and DCV
IDP3: Dual InputThermocouple (J/K/R/S/T/B/N)
and 4 to 20mA
IDR1: Dual Resistance Input, 0.2/2/20K
IDT6: Dual Input - Thermocouple and Load Cell 362C
IDD4: Dual Input, DCV and DCmV 2V/50mV DC
IF06: Line Frequency
IF10: Univ. Freq. / RPM / UP DOWN Counter
IDD6: Dual Input, DC mV and 4 to 20mA
TTL Input Connected to IF10
50mV/4 to 20mA DC
IDT1: Dual Thermocouple (J/K/R/S/T/B/N)
Tach Generator Connected to IF10
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NAMUR Sensor Connected to IF10
IP10: Process + 3 Digital Inputs
PNP Open Collector Proximity Switch Connected to IF10
IOR1: ORP (Oxidation Reduction Potential)
Switch or Dry Contact Connected to IF10
Magnetic Pickup Connected to IF10
IQP1: Quad 4 to 20mA
IP09: 4-20mA with External LIN Table Select
IR01: Resistance, 2/3/4-Wire, 200/2K/20K
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GI-50EB0 320 DS (NZ309)
IS03: Pressure/Load Cell with AutoCal
5/10VDC Exc., 20/2mV/V, 4-wire
IS04: Pressure/Load Cell Ext Exc., 20/2mV/V, 4/6wire
IS05: Pressure/Load Cell 20/2mV/V, 5/10V Exc 4-wire
IS07: Pressure/Load Cell Ext Exc. High Impedance,
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Page 6
ITT1: Triple Thermocouple (J/K/R/S/T/B/N)
IW03: DC-Watts, 10V/50mV DC
IT01: Thermocouple (J/K/R/S/T/B/N)
ITT4: Triple InputT/C, T/C (J/K/R/S/T/B/N)
and 4 to 20mA
ITT8: Triple InputT/C (J/K/R/S/T/B/N),
4 to 20mA and 4 to 20mA
ITT9: Triple InputT/C (J/K/R/S/T/B/N), DCV and 50mV DC
ITP1: Triple 4 to 20mA
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GI-50EB0 320 DS (NZ309)
Dual input modules, and those modules exclusively compatible with the Leopard or Tiger Families, do not have zero and span adjustments. These modules are scaled and calibrated using the internal software functions of each individual meter.
Input and Output Pins On most modules Pin is the Signal High input and Pin 3 is the Signal Low input. Typically Pin 2 is used for Excitation Voltage output.
24 V DC Output for 4-20 mA Header On some modules this header enables a 24 V DC 25 mA
(max) Excitation/Auxiliary output to be connected to Pin
2 that can power most 4-20 mA transmitters.
INPUT RANGE Headers
Range values are marked on the PCB. Typically two to eight positions are provided, which are selected with either a single or multiple jumper clip. When provided, a custom range position is only functional when the option has been factory installed.
SPAN Potentiometer (Pot)
If provided, the 5 turn SPAN pot is always on the right side (as viewed from the rear of the meter).
Typical adjustment is 20% of the input signal range.
SPAN ADJUST Header
This unique five-position header expands the adjustment range of the SPAN pot into five equal 20% steps, across 00% of the input Signal Span. Any input Signal Span can then be precisely scaled down to provide any required Display span from full scale to the smallest viewable unit.
Function Select Headers
On some modules various functions such as Amps and Volts, 4 wire and 6 wire, or cold junction compensation are selected by header positions that are marked on the PCB.
Excitation Output Select Headers When excitation outputs are provided, they are typically 5 V DC max 30 mA, 0 V DC max 30 mA (300 or higher resistance) or external supply. They are selected by either a single or multiple jumper clip.
ZERO Potentiometer (Pot)
If provided, the ZERO pot is always to the left of the SPAN pot (as viewed from the rear of the meter).
Typically it enables the input signal to be offset 5% of the full scale display span.
ZERO OFFSET RANGE Header When provided, this three position header increases the ZERO pots capability to offset the input signal, by 25% of the full scale display span. For example a Negative offset enables a to 5 V input to display 0 to full scale. The user can select negative offset, positive offset, or no offset (ZERO pot disabled for two step non-interactive span and offset calibration).
SPAN RANGE Header
When this header is provided it works in conjunction with the SPAN ADJUST Header by splitting its adjustment range into a Hi and a Lo range. This has the effect of dividing the adjustment range of the SPAN pot into ten equal 0% steps across 00% of the input Signal Span.
ZERO ADJUST Header
When this header is provided, it works in conjunction with the ZERO OFFSET RANGE Header, and expands the ZERO pots offset capability into five equal negative steps or five equal positive steps. This enables virtually any degree of input signal offset required to display any desired engineering unit of measure.
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Page 63
PANEL CUTOUT
Case will mount in standard DIN cutouts
SIDE VIEW
Mosaic Fitting
135.5mm
(5.35")
65.8mm
(2.6")
9/32
DIN
Cutout spacers
136.85mm
(5.41")
138mm
(5.44")
68mm
(2.68")
66.9mm
(2.63")
9/32 DIN
Cutout spacers
65.8mm
(2.6")
Mosaic Fitting
67.75mm
(2.64")
Snug Fitting
Loose Fitting
8mm
(0.31")
130.47mm
(5.15")
14mm
(0.55")
Top & Bottom
Right-angled
Connectors
These dimensions are increased by 2mm (0.08") when the metal surround case is installed.
Metal Surround Case
P/N:(OP-MTL144X72)
NOTE: The Metal Surround Case is pre-installed at the factory and cannot be removed without damage
to the case.
Two Screw Mount Clips are supplied as standard with this case. For replacement Screw Mount Clips, Order P/N.(OP-MTLCLIP)
Various bezel
colors are available.
Black is standard.
FRONT VIEW
9/32 DIN 144x72mm
72mm
(2.84")
5mm
(0.2")
typical
144mm
(5.69")
For product details visit www.texmate.com Local Distributor Address
Page 68
Texmate, Inc. Tel. (760) 598-9899 www.texmate.com
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GI-50EB0 320 DS (NZ309)
Texmate is an American manufacturer of high durability industrial grade panel meters, bar graphs, and transducers. Texmate's meters are frequently equipped with relays and various signal outputs for industrial automation applications and are known for their extremely long service life.