PROGRAMMING CODE SHEET

Tiger Programming Code Sheet Tiger PROGRAMMING CODE SHEET Contents Initial Setup Procedures.............................2 Tiger Code Logic Diagram.................4 CALIBRATION MODE..............................5 CODE 1.........................................8 CODE 2.........................................9 CODES 3 5...................................10 CODES 6 9...................................11 SETPOINT PROGRAMMING MODE SPC_1 SPC_6.12 Detailed Descriptions and Explanations...............15 Cusmer Code Settings Main Programming Mode.....16 Cusmer Code Settings Setpoint Programming Mode..19 Commonly d Registers.........................20 Thermocouple Calibration for CH1...................21 RTD Calibration for CH1...........................22 Programming Tips 1) the butn step through the codes of the Main or Setpoint Programming Mode. 2) To save a Main Programming Mode code setting and return directly the operational display, press the butn and then the and butns at the same time. 3) To save a Setpoint Programming Mode setting and return directly the operational display, press the butn and then the and butns at the same time. 4) When configuring the three-digit code and setpoint settings, pressing the and butns at the same time increases the displayed parameter in increments of 100 counts. Press 1 Prog. SP1 SP2 SP4 SP3 SP5 SP6 Front panel programming This programming code sheet (PCS) is a quick reference document that allows you quickly view the controller's programming codes. When you become familiar with the controller and the programming code structure, the PCS can be used in place of the user manual. All displays shown in this code sheet are for a 6-digit, 14-segment alphanumeric display. Other displays will be slightly different. To configure the controller's programming codes from the front panel, the controller uses the three right-hand side display digits. These are known as the 1st, 2nd, and 3rd digits and can be seen in the diagram below. OPERATIONAL DISPLAY Programming via PC Meter configuration utility program With a serial output module installed, the meter can be fully configured through the meter configuration utility program. In addition all application function settings, the configuration program also provides access added features such as: Code blanking. Display text editing. Configuration data copying. Downloading macros the meter. Code blanking Code blanking blanks out all function codes not required by the application. This means that specific procedures such as recalibration and setpoint reprogramming can be achieved in a few simple steps from the front panel butns. To turn code blanking and macro settings OFF, carry out the Code Blanking and Macro Check on Page 3. Display text editing This function allows displayed text, such as setpoint titles, be edited suit your applications. For example, a setpoint could be edited read [TNK_LO] for tank level low, or [BRKOF] for brake off. Macros Texmate has a growing library of macros suit a wide range of standard cusmer applications. Macros can be installed in the controller, via the Tiger Development System (TDS) or configuration program, and run aumatically when the meter is powered up. Tamper-proof settings Tiger controllers (except the DI-802) have tamper-proof lockout switches prevent users configuration settings from being inadvertently changed. Code blanking is also used (via the PC) blank out codes not used, making them operar tamper-proof, but leaving selected codes available for operar adjustment. 3-digit programming codes are specified within square brackets [X]. If an X appears in the description of a 3-digit programming code or in a configuration procedure, this means that more than one choice can be made, or any number displayed in that digit is not relevant the function being explained. 380 Series 1st Digit 2nd Digit 3rd Digit The logic diagram on Page 4 shows the code structure of the Tiger controller range. The diagrams on the following pages show the 3-digit settings available for each code. The 3-digit default settings are 0, indicated in bold text in each code. Configuration data copying This function allows the current meter configuration settings be copied and saved for later referral or for resration. Texmate Inc. Tel. (760) 598 9899 www.texmate.com 1

Initial Setup Procedures Tiger Programming Code Sheet Before configuring the controller, carry out the following controller configuration checks: Model and software code version check. Code blanking and macro check. After powering-up the controller, check the model and software code version number and note this below. Model No:... Software Version No:... Cusmer ID:... Macro Version No:... Model and Software Code Version Check The controller model and software code version number can be checked at any time while in the operational display using the following procedure. Programming Tip The Model and Software Code Version checking procedure can be performed at any time without interfering with other configuration settings. STAR ART T HERE MODEL & SOFTWARE CODE VERSION CHECK Step 1 Press and hold the and butns Step 2 While holding both butns, press the Prog. butn then release all three butns b Press once then release Example Step 3 The displays ggle three times. If a macro is installed and turned on, the cusmer ID and the macro ID scroll across the display before returning the operational display. Operational Display TEXMATE a Press and hold c Release after pressing Prog. Model Number Typical Software Version Number Operational Display Texmate Inc. Tel. (760) 598 9899 www.texmate.com 2

Tiger Programming Code Sheet Code Blanking and Macro Check Code Blanking Tiger controllers have the ability hide (blank out) all or some programming codes prevent tampering through the front panel. This function is known as code blanking and is ideal for preventing settings, such as calibration, being changed by the operar. Code Blanking Press 1 Configuration Utility Program Code Blanking ON (Enabled) Selected codes hidden (blanked out) so that the operar cannot access them thru the front panel Code blanking always reverts ON when the meter is powered up Code Blanking Press 1 Configuration Utility Program Code Blanking OFF (Disabled) All codes are now visible and accessible the operar thru the front panel The code blanking function can be either enabled (set ON) or disabled (set OFF) through the front panel. Changing which codes are visible, and therefore accessible the operar, can only be done through the Configuration Utility program. During power-up, the code blanking function always reverts ON (enabled). This means that when the meter is switched ON all codes are visible except those that have been blanked out during meter configuration. Code blanking can be set OFF (disabled) by the operar by following the Code Blanking and Macro Check procedure opposite. Setting code blanking OFF means that all codes are visible the operar and can be tampered with. Macros A macro is a set of commands that run aumatically when the controller is powered up. Macros can be installed in the controller at the facry during initial programming or by the cusmer at some later date. Macros are written and compiled using the Tiger Development System (TDS) compiler program and loaded in the controller using either the TDS or the configuration program. Turning the macro OFF means that the controller will not perform the aumatic commands pre-programmed run with the macro. Unless otherwise requested, Texmate program the controller in the code blanking and macro ON (enabled) setting. Texmate has a growing library of macros suit a wide range of standard cusmer applications. CODE BLANKING & MACRO CHECK PROCEDURE To disable (set OFF) code blanking and/or a macro, carry out the following procedure: STAR ART T HERE Step 1 Press and hold the and butns Step 2 While holding both butns, press the Prog. butn. Step 3 Release the the and butns and hold the Prog. butn for approx. 1 sec then release Example Step 4 Press the butn switch code blanking OFF Press Release after 1 sec NOTE: Unless otherwise requested, the facry default setting is ON Step 5 Press the Prog. butn. Press 1 Operational Display Code Blanking Code Blanking & Macro Check Procedure continued on next column (Step 6) Press and hold Release after pressing Prog. Press 1 continued from Step 5 Step 6 Example NOTE: Unless otherwise requested, the facry default setting is ON Press the butn switch the macro OFF Step 7 Press the Prog. butn. Press 1 Programming Tip Operational Display Macro Press 1 Code Blanking and Macro ON/OFF settings revert the controller s original configuration settings when the meter is powered off and on. Texmate Inc. Tel. (760) 598 9899 www.texmate.com 3

Draft Copy. Code Version V4.01d Tiger Code Logic Diagram Tiger Programming Code Sheet OPERATIONAL DISPLAY To enter press the and butns at the same time To enter press the and butns at the same time Main Programming Mode [ BRI ] [ CAL ] Display Brightness Allows you adjust the display brightness in a range of 8 settings. 0 being dull, 7 being bright. Calibration Modes for Inputs and Outputs See Pages 5 7 for calibration settings perform the following calibration functions on input and output signals (The first 5 functions are activated by pressing Prog.): Tare. Single point au calibration. 2-point au calibration. Primary input compensation. Manual loader. Manual calibration. RTD calibration. Set up serial output. Set up au zero maintenance settings. Set up averaging samples & averaging window. Set K facr & cuff for talizers. Set up four 32-point linearization tables. [CODE_4] [CODE_5] Code 4 CH2 Functions See Page 10 for code settings configure CH2 when using dual input signal conditioners: Direct signal, square root, or inverse of CH2 voltage or current input. CH2 Measurement task (input signal type and range selection for CH2). Apply selected linearization table CH2 signal. Code 5 CH3 Functions See Page 10 for code settings configure CH3 when using triple input signal conditioners: Direct signal, square root, or inverse of CH3 voltage or current input. CH3 Measurement task (input signal type and range selection for CH3). Apply selected linearization table CH3 signal. Setpoint Programming Mode Setpoint Activation Values Mode Enter these menus set setpoint (SP) activation values [SP_1] [SP_2] [SP_3] [SP_4] [SP_5] Setpoint 1 Setpoint 2 Setpoint 3 Setpoint 4 Setpoint 5 Default setting = 18000 Default setting = 18000 Default setting = 5000 Default setting = 5000 Default setting = 10000 [CODE_1] [CODE_2] [CODE_3] 2-point calibration. Thermocouple calibration. Code 1 Display Configuration See Page 8 for code settings configure: Analog output scaling. Tendency indication thru SP1 & SP2 annunciars (shows rising / falling signal). Indication of setpoints / relays operation thru dedicated annunciars. Selecting the data source for the display and peak / valley 1 3. Selecting last digit rounding. Selecting display units. Selecting decimal point position. Display manual loader. Display with selected update rates (display shows selected register). Code 2 Sampling Rate & CH1 Measurement Task See Page 9 for code settings configure the following: Analog sampling rate and control output rate for all seven channels. CH1 Measurement task (input signal type and range selection for CH1). Code 3 CH1 Post Processing Functions See Page 10 for code settings configure the following CH1 post processing functions: Direct signal, square root, or inverse of CH1. Apply selected linearization table CH1 signal. [CODE_6] [CODE_7] [CODE_8] [CODE_9] Code 6 CH4 Functions See Page 11 for code settings configure CH4 when using quad input signal conditioners: Direct signal, square root, or inverse of CH4 voltage or current input. CH4 Measurement task (input signal type and range selection for CH4). Apply selected linearization table CH4 signal. Code 7 Result Processing See Page 11 for code settings configure the controller for processing the result of CH1 and CH2: Direct signal, square root, or inverse of Result signal. Apply selected linearization table Result signal. Maths functions for Result (CH1and CH2). Code 8 Data Logging & Printer Options See Page 11 for code settings configure data logging and data printing from the controller. Code 9 Functions for Digital Input Pins See Page 11 for code settings configure the inputs from external sources through the following digital input pins on the rear of the controller: Display test pin. Hold pin. Lock pin. [SP_6] [SPC_1] Setpoint 6 Setpoint & Relay Control Settings Mode Enter these menus configure SP control settings [SPC_2] [SPC_3] [SPC_4] [SPC_5] [SPC_6] Setpoint 1 Setpoint 2 Setpoint 3 Setpoint 4 Setpoint 5 Setpoint 6 Default setting = 10000 The Setpoint and Relay Control Settings diagram on Pages 12 14 shows the three digit configuration settings that are applied individually each setpoint. OPERATIONAL DISPLAY Texmate Inc. Tel. (760) 598 9899 www.texmate.com 4

CALIBRATION MODE CALIBRATION MODES FOR AND OUTPUT FIRST DIGIT SECOND DIGIT 0 No function 0 Functions Activated by Pressing the 1 On Demand TARE from the PROGRAM butn PROGRAM Butn 2 On Demand Single-point Calibration from the PRO- GRAM butn (requires single input source) 1 Calibration Procedures 2 Related Calibration Functions 3-3 On Demand 2-point Calibration from the PROGRAM butn (requires dual input source) 4 On Demand Primary Input Compensation Mode from the PROGRAM butn 5 On Demand Manual Loader Mode (no increase / decrease with HOLD active) 7 - When in the TARE mode, a decimal point appears at the right of the display indicating that the tare value is NOT zero. 0 Manual Calibration (requires NO input source) 1 2-point Calibration (requires dual input source) 2 Calibrate Thermocouple (requires K type thermocouple input source) 3 Calibrate RTD (requires RTD 385 input source) 4 For future development 5 Calibrate Analog Output ma/v (Single analog out requires multimeter connected pins 2 and 3 on Terminal 4) 7-0 Serial Communications Properties 1 Set Au Zero Maintenance for 3rd digit 2 Set Averaging Samples & Averaging Window for 3rd digit 3 Totalizer Settings Mode 4 Setup 32-point Linearization Tables 5 Scale Analog Output LOW/HIGH Scale Range Settings 7 - See Page 6 for a breakdown of the sub-menu See Page 6 for a breakdown of the sub-menu See Page 7 for a breakdown of the sub-menu This is the default 3rd digit box. If not pointing another 3rd digit box, all 2nd digit settings should be regarded as pointing here. It is identified on Pages 6 and 7 by the following box: DEFAULT 3rd Digit OBJECT FOR 2nd DIGIT THIRD DIGIT 0 Result 1 Channel 1 2 Channel 2 3 Channel 3 4 Channel 4 5 Channel 5 6 Channel 6 7 Channel 7 1 CH1 2 CH2 3 CH3 1 CH1 2 CH2 3 CH3 4 CH4 5 CH5 6 CH6 7 CH7 1 Analog Output 1 2 Analog Output 2 3 Analog Output 3 4 Analog Output 4 5 Analog Output 5 6 Analog Output 6 7 Analog Output 7 1 Port 1 2 Port 2 3 Port 3 1 Total 1 2 Total 2 3 Total 3 4 Total 4 5 Total 5 6 Total 6 1 CH1 2 CH2 3 CH3 4 CH4 5 CH5 6 CH6 7 CH7 1 Analog Output 1 2 Analog Output 2 3 Analog Output 3 4 Analog Output 4 5 Analog Output 5 6 Analog Output 6 7 Analog Output 7 See CH1 Thermocouple Calibration on Page 21 for a procedure. See CH1 RTD Calibration on Page 22 for a procedure. Settings 3-7 not available at present Port 3 only available on certain input modules Settings 3-7 not available at present Analog Output TERMINAL 4 Converting F C Tiger Programming Code Sheet Using the Calibration Mode 1) Press the and butns at the same time. The controller enters the brightness menu [BRI]. Press the butn again enter the Calibration Mode. 2) With [CAL] [X] ggling on the display, set the 1st, 2nd, and 3rd digits their required settings. 3) Press the butn enter the selected submenu and select the required calibration settings from the sub-menus displayed. 4) Press the butn repeatedly return the operational display (bypassing Codes 1 9). Once the 3-digit settings have been entered for an on-demand function [CAL] [0], pressing the butn saves the selected on-demand setting and moves Code 1. When in the operational display, press the butn for 4 seconds activate the selected on-demand function and display the relevant sub-menu settings (except [01X] which has no sub-menu). 1 2 3 See r Notes on Page 21 for a procedure. CHANNELS 5, 6, 7 Not available thru front panel controls. Can only be setup via serial port using Texmate s Meter Configuration Utility program, or accessed via a macro. Texmate Inc. Tel. (760) 598 9899 www.texmate.com 5 Single Analog Output (AIC or AIV) Dual Analog Output (ADV) + 1 2 3 + +

Tiger Programming Code Sheet CALIBRATION MODES FOR AND OUTPUT FIRST DIGIT SECOND DIGIT 0 No function 0 ON-DEMAND Functions Activated by Pressing the PROGRAM Butn 1 On Demand TARE from the PROGRAM butn 2 On Demand Single-point Calibration from the PROGRAM butn (requires single input source) OBJECTFOR 2nd DIGIT THIRD DIGIT 0 Result 1 Channel 1 2 Channel 2 3 Channel 3 4 Channel 4 5 Channel 5 6 Channel 6 7 Channel 7 When all 3 digits are selected and the meter is running in the operational display, press the butn for 4 seconds activate the selected on-demand function Press the PROGRAM butn for 4 seconds tare the selected channel 4 secs Press the PROGRAM butn for 4 seconds display the single-point calibration settings 4 secs butns set SPAN 3 On Demand 2-point Calibration from the PROGRAM butn (requires dual input source) 4 secs butns set ZERO butns set SPAN 4 On Demand Primary Input Compensation Mode from the PROGRAM butn 4 secs Example butns ADJUST primary input compensation value from 199999 999999 When in this setting, the destination channel is only updated after the butn is pressed 5 On Demand Manual Loader Mode (no increase / decrease with HOLD active) 7 - When in the TARE mode, a decimal point appears at the right of the display indicating that the tare value is NOT zero. 4 secs Example butns ADJUST the value on the selected channel from 199999 999999 via the manual loader output. See Note* When in this setting, the destination channel is updated as the or butn is pressed Note*: For the Manual Loader Mode (Direct Display) work, with CAL set [25X] the data source for the analog output (1 or 2) must be set [DISP]. Operating range upper and lower limits can be set for the manual loader mode. The setpoint activation values for setpoint 5 becomes the upper limit and setpoint 6 becomes the lower limit. When either the direct display or on demand manual loader mode is programmed in the meter, the values for setpoint 5 and setpoint 6 are activated as upper and lower limits. See Analog Output Supplement (NZ200) for further details. 1 Calibration Procedures 0 Manual Calibration (requires NO input source) butns set OFFSET butns set SCALE 1 2-point Calibration (requires dual input source) 2 Calibrate Thermocouple (requires K type thermocouple input source) THIRD DIGIT 1 CH1 2 CH2 3 CH3 butns set ZERO butns set SPAN See CH1 Thermocouple Calibration on Page 21 for a procedure. 3 Calibrate RTD (requires RTD 385 input source) 4 Calibrate Smart Input Module. This function is not available on all input modules THIRD DIGIT 1 CH1 2 CH2 3 CH3 4 CH4 See CH1 RTD Calibration on Page 22 for a procedure. 2 Related Calibration Functions 5 Calibrate Analog Output ma/v (Single analog out requires multimeter connected pins 2 and 3 on Terminal 4) 7 - See Page 7 for a breakdown of the sub-menu DEFAULT 3rd Digit THIRD DIGIT 1 Analog Output 1 2 Analog Output 2 3 Analog Output 3 4 Analog Output 4 5 Analog Output 5 6 Analog Output 6 7 Analog Output 7 All smart input modules have individual calibration procedures. See the specific smart input module data sheet for setup procedures butns set CAL_LO butns set CAL_HI 3 - Note, settings 3-7 not available at present Texmate Inc. Tel. (760) 598 9899 www.texmate.com 6

CALIBRATION MODES FOR AND OUTPUT FIRST DIGIT SECOND DIGIT 0 Functions Activated by Pressing the PROGRAM Butn See Page 6 for a breakdown of the sub-menu OBJECTFOR 2nd DIGIT THIRD DIGIT butns select mode Modbus RTU procol butns select baud rate Tiger Programming Code Sheet These settings show the full range of the baud rate. The available baud rate differs for ports 1 3. 1 Calibration Procedures See Page 6 for a breakdown of the sub-menu Select the settings for the serial port selected in the 3rd digit Macro controlled serial output Print directly serial printer or PC Ethernet 2 Related Calibration Functions 3-0 Serial Communications Properties 1 Port 1 2 Port 2 3 Port 3 THIRD DIGIT Port 3 only available on certain input modules DeviceNet Touchpanel Modbus master Up 255 butns set parity butns set address 1 Set Au Zero Maintenance for 3rd digit 2 Set Averaging Samples & Averaging Window for 3rd digit THIRD DIGIT 0 Result 1 Channel 1 2 Channel 2 3 Channel 3 4 Channel 4 5 Channel 5 6 Channel 6 7 Channel 7 Au zero capture band Rate-of-change in counts per second butns set AZ_CAP from 1 254 counts Au zero motion butns set averaging samples from 0 255 counts butns set AZ_MOT from 0 255 counts Au zero aperture window butns set averaging window from 0 65535 counts butns set AZ_APT from 0 65535 counts 3 Totalizer Settings Mode THIRD DIGIT 1 Total 1 2 Total 2 3 Total 3 4 Total 4 5 Total 5 6 Total 6 butns select source for talizer For data source selection options, see Select Data Source diagram on Page 8 Default setting 10,000 counts butns set input rate butns set Cuff from 19999 32767 butns set time period butns set rollover ON or OFF butns set tal from 1 65535 4 Setup 32-point Linearization Tables 5 Scale Analog Output LOW/HIGH Scale Range Settings 7 - THIRD DIGIT 1 CH1 2 CH2 3 CH3 4 CH4 5 CH5 6 CH6 7 CH7 THIRD DIGIT 1 Analog Output 1 2 Analog Output 2 3 Analog Output 3 4 Analog Output 4 5 Analog Output 5 6 Analog Output 6 7 Analog Output 7 Settings 3-7 not available at present Select the method of configuring the user defined linearization table: manual or au setup mode. Then set the table number, date, and serial number before setting the linearization points. Or select [init] re-initialize the default table settings. butns select source for analog output For data source selection options, see Select Data Source diagram on Page 8 The input channel setting in the 3rd digit is not relevant the manual setup mode. butns set LOW display reading [CAL_L] The correct input signal channel must be selected in the 3rd digit when configuring a linearization table using the au setup mode. butns set HIGH display reading [CAL_h] Texmate Inc. Tel. (760) 598 9899 www.texmate.com 7

CODE 1 Tiger Programming Code Sheet FIRST DIGIT SECOND DIGIT THIRD DIGIT FRONT PANEL ANNUNCIATORS 0 ON when Setpoints are ON (relay energized) 1 ON when Setpoints are OFF (relay de-energized) 2 Always OFF. See Note 1 3 LED SP1 ON indicates RISING signal trend. LED SP2 ON indicates FALLING signal trend. CODE 1 DISPLAY CONFIGURATION DISPLAY FUNCTIONS 0 Normal Display Mode (i.e. operational display shows selected register)(updates every 0.5 seconds) 1 Manual Loader Mode (Direct display). See Note* 2 Update at controlled output rate selected in Code 2 3-4 - 5 Select data source as per 3rd digit. See Note 4 6 Select display format as per 3rd digit. See Note 4 7 Select text character as per 3rd digit. See Note 4 Note*: For the Manual Loader Mode (Direct Display) work, with CAL set [25X] the data source for the analog output (1 or 2) must be set [disp]. Operating range upper and lower limits can be set for the manual loader mode. The setpoint activation values for setpoint 5 becomes the upper limit and setpoint 6 becomes the lower limit. When either the direct display or on demand manual loader mode is programmed in the meter, the values for setpoint 5 and setpoint 6 are activated as upper and lower limits. See Analog Output Supplement (NZ200) for further details. Note 1: LED annunciars are always off, except when the meter is in single channel VOLTAGE or CURRENT mode and Code 3 = [X6X], or Code 7 = [X6X] in which case the LEDs indicate which 32-point table has been selected from the rear pins (SP1 = Table 1, SP2 = Table 2, SP3 = Table 3, SP4 = Table 4). Note 2: These options are only for use with meters that have more than one display. With bargraph meters the PRIMARY display is the digital display, and the SECONDARY display is the bargraph display. SELECT DATA SOURCE FOR 0 Primary Display 1 Second Display. See Note 2 2 Third Display. See Note 2 3 Peak/Valley 1 4 Peak/Valley 2 5 Peak/Valley 3 7 - SELECT DISPLAY FORMAT FOR 0 Result 1 Channel 1 2 Channel 2 3 Channel 3 4 Channel 4 5 Channel 5 6 Channel 6 7 Channel 7 SELECT TEXT CHARACTER FOR 0 Result 1 Channel 1 2 Channel 2 3 Channel 3 4 Channel 4 5 Channel 5 6 Channel 6 7 Channel 7 Select Data Source the and butns cycle thru the Registers Menu and Registers (111 16383) select the data source for displays, peak and valley, talizers, and analog output. Registers [ 111] [16383] FIRST DIGIT SECOND DIGIT THIRD DIGIT DISPLAY UNITS 0 Decimal 1 24-hour clock mode Hours: Minutes:Seconds (6-digit version only) 2 12-hour clock mode (12:30 am is displayed as 12:30A. 12:30 pm is displayed as 12:30P) 3 24-hour clock mode Days: Hours:Minutes (6-digit version only) LAST DIGIT ROUNDING 0 No rounding 1 Rounding by 2 s 2 Rounding by 5 s 3 Rounding by 10 s Selecting 1, 2, or 3 in the 2nd digit of this mode configures the display of the selected channel as a clock. Select Last Digit Text Character 4-5 - 7 Octal [DISP] [TARE] [RESULT] The butn takes you forward, the butn takes you back. Constant pressure on the butn moves thru Registers 111 16383 one register at a time. Note, not all registers between 111 and 16383 are available. [AUX_1] [AUX_16] [VALY_3] DISPLAY FORMAT MODE [CH_1] [CH_7] [PEAK_3] Program the three digits the required display function mode [TOT_1] [TOT_6] [VALY_2] [PEAK_1] [VALY_1] [PEAK_2] DECIMAL POINT PLACEMENT 0 No decimal point 1.. (6 or 8-digit version only) 2 X.X (6 or 8-digit version only) 3 X. 4 X.X 5 X. 6 X.X 7 Decimal Point set from the rear (X.X ). See Note 3. Also See Note 4 Note 3: These functions are only available on selected input modules. Note 4: If Code 1's display modes have been entered (second digit set 5, 6, or 7), the display will cycle between Code 1 and the display functions mode each time the PROGRAM butn is pressed. To leave the cycle, the Code 1 digits must be reset any relevant function between [X00] [X20]. This takes you in Code 2. Note 5: These functions are not available on all models and in some cases require additional hardware. Note 6: Only available with selected input modules. Note 7: Register 4450 can only be setup via the serial port or a macro. the and the butn cycle through the menu, butn cycle back. Texmate Inc. Tel. (760) 598 9899 www.texmate.com 8

CODE 2 Tiger Programming Code Sheet FIRST DIGIT NOISE REJECTION, ANALOG SAMPLING AND OUTPUT RATE 0 Sample Rate: Typically 10 samples/second at 60 Hz Control Output Rate: 0.1 seconds See Example 1 Sample Rate: Typically 10 samples/second at 50 Hz Control Output Rate: 0.1 seconds See Example 2 Sample Rate: Typically 10 samples/second at 60 Hz Control Output Rate: Counter or 10 millisecs Control Output Rate See Example 3 Sample Rate: Typically 10 samples/second at 50 Hz Control Output Rate: Counter or 10 millisecs Control Output Rate See Example Output Rate refers setpoint and macro outputs, and input rates from smart input modules. All above sample rates are quoted for single channel operation. Where more than one channel is available, sample rates are divided by the number of active channels. See Example below. Example: 10 Samples/Second 1 Channel = 10 samples/second 2 Channels = 5 samples/second 3 Channels = 3.33 samples/second 4 Channels = 2.5 samples/second SECOND DIGIT CODE 2 CHANNEL 1 MEASUREMENT TASK AND SAMPLING RATE MEASUREMENT TASK 0 Voltage, Current 1 TC (3rd digit selects type of TC) 2 RTD/Resistance 3-wire (3rd digit selects type of RTD) 3 RTD/Resistance 2- or 4-wire (3rd digit selects type of RTD) 4 Frequency 5 Period 6 Counter 7 Smart Input Module THIRD DIGIT FOR VOLTAGE 0 No function 1 Peak detecr 2 Pressure with Au-cal FOR THERMOCOUPLE 0 Type J 1 Type K 2 Type R 3 Type S 4 Type T 5 Type B 6 Type N 7 For sensor tables other than those listed above contact Texmate FOR RTD TYPE (2-, 3-, 4- WIRE) 0 Resistance 1 Pt 385 100 Ω RTD 2 Pt 392 100 Ω RTD 3 Ni 120 Ω RTD 4 Cu 10 Ω RTD FREQUENCY RANGE SELECTION 0 99.999 Hz range from 0.010 Hz 1 99.999 Hz range from 2.000 Hz 2 999.99 Hz range from 0.01 Hz 3 999.99 Hz range from 2.00 Hz 4 9999.9 Hz range from 0.1 Hz 5 9999.9 Hz range from 2.0 Hz 6 99 khz range from 1 Hz (1 s gate) 7 655.35 khz range from 10 Hz (0.1 s gate) butns set prescale values X61 Selects Prescaler 1 = 0.1 second 10 = 1 second 600 = 1 minute 3600 = 1 Hour*** *** For the 1 hour setting, the scale facr for CH1 must be set 0.1 in the calibration mode setting [111]. PERIOD MEASUREMENT SELECTION 0 99.999 s 1 9.9999 s 2 999.99 ms 3 99.999 ms COUNTER/RESIDENT TIMER/CLOCK SELECTION 0 Counter input with 16-bit Pre-scaler 1 Setting of 16-bit Pre-scaler 2 Debounced Counter with Pre-scaler 3 Up/Down Counter with Pre-scaler 4 0.1 sec Timer with Pre-scaler 5 6 External 24-hour clock 7 Internal 24-hour clock the butns set the required smart input module code (0 377). See specific input module data sheet for code details. Note 6: Only available with selected input modules. 0 Output Register 1 1 Output Register 2 2 Output Register 3 3 Output Register 4 4 Output Register 5 5 Output Register 6 6 Output Register 7 SMART MODULE The register map is different for each smart input module. See specific smart input module data sheet. 7 Smart Input Module Register 1 Code Setup. See Note 6. Texmate Inc. Tel. (760) 598 9899 www.texmate.com 9

CODES 3 5 Tiger Programming Code Sheet FIRST DIGIT SECOND DIGIT THIRD DIGIT CODE 3 CHANNEL 1 POST PROCESSING FUNCTIONS CHANNEL 1 POST PROCESSING 32-POINT LINEARIZATION FOR CHANNEL 1 NOT USED 0 Direct Display of Input (no processing) 0 No Linearization on CH1 1 32-point Linearization on CH1 using Table 1 1 Square Root of Channel 1 2 32-point Linearization on CH1 using Table 2 2 Inverse of Channel 1 3 32-point Linearization on CH1 using Table 3 3 4 32-point Linearization on CH1 using Table 4 5 125-point Linearization on CH1 (Tables 1 4 cascaded) 6 32-point Linearization on CH1 (Tables 1 4 selected from the rear pins of selected input modules) The selected table is not available if CH2, CH3, or CH4 is operating in the analog output mode. CH1 must be set Voltage, Current in Code 2 [X0X] 7 - All linearization tables are set up in the Calibration Mode [24X]. FIRST DIGIT SECOND DIGIT THIRD DIGIT CODE 5 CHANNEL 3 FUNCTIONS CH3 POST PROCESSING 0 Direct Display of Input (no processing) 1 Square Root of Channel 3 2 Inverse of Channel 3 3 32-point Linearization of CH3 using Table 3 All linearization tables are set up in the Calibration Mode [24X]. MEASUREMENT TASK 0 No Function 1 Voltage, current 2 TC (3rd digit selects type of TC) 3 RTD/Resistance (3rd digit selects type of RTD) 4 Real Time Clock & Timer (3rd digit selects type) 5-7 Smart Input Module (3rd digit selects register) FOR THERMOCOUPLE 0 Type J 1 Type K 2 Type R 3 Type S 4 Type T 5 Type B 6 Type N 7 For sensor tables other than those listed above contact Texmate FOR RTD TYPE (2-, 3-, 4- WIRE) 0 Resistance 1 Pt 385 100 Ω RTD 2 Pt 392 100 Ω RTD 3 Ni 120 Ω RTD 4 Cu 10 Ω RTD MEASUREMENT TASK 0 Voltage, Current 1 TC (type as per 2nd digit) 2 RTD/Resistance (type as per 2nd digit) 3 Second Digital Input Channel (type as per 2nd digit) CODE 4 CHANNEL 2 MEASUREMENT TASK AND 32-POINT LINEARIZATION FOR VOLTAGE & CURRENT 0 Channel 2 Disabled 1 Direct (no post processing) 2 Square Root of Channel 2 3 Inverse of Channel 2 4 Output Register 1 (smart module)* 5 Output Register 2 (smart module)* 6 Output Register 3 (smart module)* 7 Output Register 4 (smart module)* FOR THERMOCOUPLE 0 Type J 1 Type K 2 Type R 3 Type S 4 Type T 5 Type B 6 Type N 7 For sensor tables other than those listed above contact Texmate FOR RTD TYPE (3-WIRE) 0 Resistance 1 Pt 385 100 Ω RTD 2 Pt 392 100 Ω RTD 3 Zn 120 Ω RTD 4 Cu 10 Ω RTD DIGITAL 0 Frequency - 99.999 Hz range from 0.001 Hz 1 Frequency - 999.99 Hz range from 0.01 Hz 2 Frequency - 99.999 khz range from 1 Hz (1 s gate) 3 Frequency - 500 khz range from 10 Hz (0.1 s gate) 4 Pulse - 50.0000 s (100 µs resolution) 5 Period - 999.99 ms (10 µs resolution) 6 Up/Down Counter with Prescaler 7 Set Prescaler 32-POINT LINEARIZATION FOR CH2 0 No user defined Linearization on CH2 1 32-point Linearization on CH2 using Table 1 2 32-point Linearization on CH2 using Table 2 3 32-point Linearization on CH2 using Table 3 4 32-point Linearization on CH2 using Table 4 5 125-point Linearization on CH2 (Tables 1 4 cascaded) 6 7 * Selecting 040 070 in the 2nd digit of Code 4 selects one of the following settings in the installed smart input module s output register map: 2nd Digit 4 selects 5 selects 6 selects 7 selects Input module s output register map 0 1 2 3 The register map is different for each smart input module. See installed input module data sheet for specific smart register 1 function map. butns set prescale values X61 Selects Prescaler 1 = 0.1 second 10 = 1 second 600 = 1 minute 3600 = 1 Hour*** *** For the 1 hour setting, the scale facr for CH1 must be set 0.1 in the calibration mode setting [111]. The function of the output register selected varies according the input module installed. FOR REAL-TIME CLOCK & TIMER 0 HRS:MIN:SEC 1 HRS:MIN 2-3 - 4 1 Second Count UP Timer 5 1 Second Count DOWN Timer 7 - FOR SMART MODULE 0 Output Register 1 1 Output Register 2 2 Output Register 3 3 Output Register 4 4 Output Register 5 5 Output Register 6 6 Output Register 7 7 Smart Input Module Register 2 Code Setup the butns set the required smart input module code (0 377). See specific input module data sheet for code details. Texmate Inc. Tel. (760) 598 9899 www.texmate.com 10

CODES 6 9 Tiger Programming Code Sheet FIRST DIGIT SECOND DIGIT THIRD DIGIT CODE 6 CHANNEL 4 FUNCTIONS CH4 POST PROCESSING 0 Direct Display of Input (no processing) 1 Square Root of Channel 4 2 Inverse of Channel 4 3 32-point Linearization of CH4 using Table 4 All linearization tables are set up in the Calibration Mode [24X]. RESULT PROCESSING 0 Direct Display of Result as per processing performed in 2nd and 3rd digits 1 Square Root of Result 2 Inverse of Result 3 - MEASUREMENT TASK 0 No Function 1 Voltage, Current 2 TC (3rd digit selects type of TC). 3 RTD/Resistance (3rd digit selects type of RTD). 4 Real Time Clock and Timer (3rd digit selects type) 5-7 Smart Input Module (3rd digit selects register) The function of the output register selected varies according the input module installed. CODE 7 RESULT PROCESSING 32-POINT LINEARIZATION FOR RESULT 0 No Linearization on Result 1 32-point Linearization on Result using Table 1 2 32-point Linearization on Result using Table 2. 3 32-point Linearization on Result using Table 3. 4 32-point Linearization on Result using Table 4. 5 125-point Linearization on Result (Tables 1 4 cascaded) 6 32-point Linearization on Result (Tables 1 4 selected from the rear of the meter). The selected table is not available if CH2, CH3, or CH4 is operating in the analog mode. CH1 must be set Voltage, Current in Code 2 [X0X]. 7 FOR THERMOCOUPLE 0 Type J 1 Type K 2 Type R 3 Type S 4 Type T 5 Type B 6 Type N 7 For sensor tables other than those listed above contact Texmate FOR RTD TYPE (2-, 3-, 4- WIRE) 0 Resistance 1 Pt 385 100 Ω RTD 2 Pt 392 100 Ω RTD 3 Ni 120 Ω RTD 4 Cu 10 Ω RTD FOR REAL-TIME CLOCK & TIMER 0 HRS:MIN:SEC 1 HRS:MIN 2-3 - 4 1 Second Count UP Timer 5 1 Second Count DOWN Timer 7 - FOR SMART MODULE 0 Output Register 1 1 Output Register 2 2 Output Register 3 3 Output Register 4 4 Output Register 5 5 Output Register 6 6 Output Register 7 7 Smart Input Module Register 3 Code Setup MATHS FUNCTIONS FOR RESULT 0 Result Register not Updated 1 ph Meter (CH1 = Tbuff, CH2 = ph) 2 Result = CH1, Setpoint 2 = CH2 3 Result = CH1 + CH2 4 Result = CH1 - CH2 5 Result = CH1 x CH2/10 000 6 Result = (CH1 x 20 000)/CH2 7 Result = Parameter at result source register (#4450) See Note 8 FIRST DIGIT SECOND DIGIT THIRD DIGIT CODE 8 DATA LOGGING AND PRINT MODE OPTIONS DATA LOG BUFFER TYPE 0 No Data Logging 1 Cyclic Buffer 2 Linear FIFO Buffer. 3 Reset Buffer Number 0. Setting Code 8 [3] resets the data log buffer 0. Once reset, Code 8 must be set back the required data log buffer setting. DISPLAY TEST PIN 0 Display test only 1 Reset Counter Channel 1, tal 2, and au zero at Power-up 2 Reset Counters Channel 1, 2, Total 1, and Total 2 at Power-up 3 Reset Total 1, and Total 2, and au zero at Power -up the butns set the required smart input module code (0 377). See specific input module data sheet for code details. Note 7: Register 4450 can only be setup via the serial port or a macro. DATE & TIME STAMP OPTIONS 0 Printer Format No time stamp with print/log 1 Printer Format Time stamp format 1 [Mth- Day-Yr Hrs:Min:Sec] (with <CR><LF>) 2 Printer Format Time stamp format 2 [Day- Mth-Yr Hrs:Min:Sec] (with <CR><LF>) 3 Printer Format Time stamp format 3 [Hrs:Min:Sec] (with <CR><LF>) 4 Spreadsheet Format No time stamp with print/log 5 Spreadsheet Format Time stamp format 1 [Mth-Day-Yr Hrs:Min:Sec] 6 Spreadsheet Format Time stamp format 2 [Day-Mth-Yr Hrs:Min:Sec] 7 Spreadsheet Format Time stamp format 3 [Hrs:Min:Sec] ALL ABOVE ARE REAL-TIME CLOCK OPTIONS CODE 9 FUNCTIONS FOR DIGITAL PINS HOLD PIN 0 Display Hold 1 Reset Channel 1 2 Reset Total 1 and Total 2 3 Reset Total 2 4 Reset Peak 1, Valley 1 5 Clear Tare 6 Set Tare 7 Unlatch (de-energize) all Setpoints Programming Tip For digital input functions selected in Code 9 operate, the relevant digital input pin must be connected the COMMON pin on Terminal 2 of the controller. The example opposite shows the HOLD pin (pin 1) connected the COMMON pin (pin 4) with the selected function activated by a switch. LOG OR PRINT TRIGGER 0 No trigger 1 Trigger on Demand from PRO- GRAM Butn 2 Trigger on Demand from F1 Butn 3 Trigger on Demand from F2 Butn 4 Trigger on Demand from HOLD Pin 5 Trigger on Demand from LOCK Pin 7 - Log and/or Print will only trigger if enabled. LOCK PIN 0 Key Lock 1 Reset Channel 1 2 Reset Channel 2 3 Reset Channel 3 4 Reset Channel 4 5 Clear Tare 6 Reset Total 1 7 Unlatch (de-energize) all Setpoints TERMINAL 2 Function Pins 1 2 3 4 5 LOCK HOLD TEST COMMON CAPTURE Texmate Inc. Tel. (760) 598 9899 www.texmate.com 11

SETPOINT PROGRAMMING MODE SPC_1 SPC_6 Setpoint Setup Sequence Follow These Steps The following procedures are written for SP1, all other setpoints are configured in a similar manner. 1) Press the and butns at the same time.this enters the setpoint programming mode.the display ggles between [SP_1] and [18000]. This is SP1 of the Setpoint Activation Values Mode. the and butns set SP1 or the butn move the required setpoint. 2) After all required setpoint activation values have been set, press the butn until [SPC_1] appears.this is the Setpoint & Relay Control Settings Mode. SPC_1 is the setpoint and relay control settings programming menu for SP1. Set the three digits according the codes in the Setpoint and Relay Control Function Settings opposite in the following order: Third Digit Setpoint Delay Mode Set [5] and program the hysteresis, deviation, or PID functions as required for SP1. Reset back [0]. Third Digit Setpoint Timer Mode Set [6] and program the timer mode functions as required for SP1. Reset back [0]. Third Digit Setpoint Reset & Trigger Functions Set [7] and program the reset and trigger functions as required for SP1. Reset back [0]. Second Digit Setpoint Activation Source Mode Set [X1X] select the setpoint activation source for SP1 from any channel or selected register shown above. Reset back [X0X]. If the SP source is from an external digital input, set one of either [X2X] [X7X] select the setpoint activation source from one of six digital inputs (2 7). See *Note at 2nd digit. First Digit Relay Energize Mode Select the relay energize mode for SP1 from 0 3. Third Digit Relay Latching & Manual Reset Functions Program the third digit setpoint relay latching and manual reset functions between 0 4 as required. 3) Press the butn move move [SPC_2]. 4) Repeat Step 2 for all required setpoints. Relay Energize Function 0 Relay energizes ABOVE setpoint value 1 Relay energizes BELOW setpoint value FIRST DIGIT SECOND DIGIT THIRD DIGIT SETPOINT AND RELAY CONTROL FUNCTION SETTINGS 2 Relay energizes AT OR ABOVE setpoint value with FALLING SIGNAL INITIAL START-UP INHIBIT 3 Relay energizes BELOW setpoint value with RISING SIGNAL INITIAL START-UP INHIBIT See Page 15 for a detailed description of the relay energize options. Select Source for Setpoint Functions the and butns cycle thru the Registers Menu and Registers (111 16383) select the data source for displays, peak and valley, talizers, and analog output. SP Activation Source 0 Activate Setpoint Source from Selected Register 1 Select Data Source for Setpoint [X1X] is a register selection procedure only. To finish, reset [X0X] activate the selection, or reset 2-7 as required for digital input selection. 2 Digital Input Capture Pin 3 Digital Input D1 (selected input modules) 4 Digital Input D2 (selected input modules) 5 Digital Input D3 (selected input modules) 6 HOLD Pin 7 LOCK Pin * If the setpoint source is set [off] or a digital input, the setpoint activation value will have no effect and will not be displayed. [DISP] [RESULT] [CH_1] [CH_7] [TOT_1] [TOT_6] [PEAK_1] [VALY_1] [PEAK_2] [VALY_2] [PEAK_3] [VALY_3] [TARE] Constant pressure on the butn moves thru Registers 111 16383 [AUX_1] [AUX_16] one register at a time. Note, not all registers between 111 and 16383 are available. Registers [ 111] [16383] The butn takes you forward. The butn takes you back. Tiger Programming Code Sheet 0 No Latching 1 Relay Latched ON 2 Manual Relay Reset 3 Relay Latched and Manual Relay Reset 4 Relay Latched Off 5 Mode: Hysteresis, Deviation, PID, SP Flashing, SP Tracking 6 Timer Modes: OFF Normal Delay Repeat ON Pulse ON 1-Shot ON Repeat OFF Pulse OFF 1-Shot OFF SP Functions In PID Mode, all Timer Modes on SP1 set in [6] are not functional. 7 Advanced Functions Mode: OFF. Reset Trigger. Reset Destination. Reset Mode. Reset Constant. Trigger Print from SP. Trigger Log from SP. [5], [6], and [7] are set up procedures only. To finish, reset 0-4 as required for setpoint latching and relay reset modes. Go Page 13 Go Page 13 Go Page 14 Texmate Inc. Tel. (760) 598 9899 www.texmate.com 12

Set Up Hysteresis, Deviation & PID Mode Settings Tiger Programming Code Sheet From Page 12, 3rd digit [5] Programming Tip Set Hysteresis from 0 65535 counts. Selected counts apply + and from setpoint value Set Deviation from 1 65535 counts. Selected counts apply + and from setpoint value Select Flash Setting OFF or ON Select Tracking Setting OFF= Tracking Off 1 = SPX tracks SP1 2 = SPX tracks SP2 3 = SPX tracks SP3 4 = SPX tracks SP4 5 = SPX tracks SP5 6 = SPX tracks SP6 Reset SPC_X 0 If minimum cycle time is set 0, the relevant relay is disabled. PID functions still operate If you do not require any of the functions in this mode, ensure it is set : Set the Proportional Band Value Set the Integral Value Set the Derivative Value Set the Anti-reset Wind-up % PB Set the Minimum Cycle Time Select Tracking Setting Set the Span MIN 0 MAX 99999 MIN 0.0% MAX 999.9% MIN 0.0 MAX 6553.5 MIN 0 MAX 999.9 MIN 0.0% MAX 100.0% MIN 0.0 secs MAX 1000.0 secs Set 0 for PID 4-20 ma. Set MINIMUM 0.5 for SSR. Set 20 secs for Relays. Set Up Timer Delay Settings Programming Tip If you do not require any of the functions in this mode, ensure it is set : From Page 12, 3rd digit [6] Normally OFF/Pulsed ON Modes These are time control modes were the relay is normally OFF (de-energizes) and pulses ON (energizes) when the setpoint activates. Normal Mode Single Actuation 1-Shot ON Mode Single Actuation Pulse ON Mode Single Actuation Delay-on-make time () 0.1 6553.5 secs 0.1 6553.5 secs 0.1/0.001 6553.5/65.535 secs Delay-on-break () time 0.1 6553.5 secs Minimum on-time (M_on) 0.1 6553.5 secs On-time (on_t) 0.1/0.001 6553.5/65.535 secs Reset SPC_X 0 Programming Tip The TIMER mode can not be accessed if the setpoint (SPC_1 SPC_6) is in the PID mode. Normally ON/Pulsed OFF Modes These are time control modes were the relay is normally ON (energizes) and pulses OFF (de-energizes) when the setpoint activates. Repeat ON Mode Multiple Actuation 1-Shot OFF Mode Single Actuation Pulse OFF Mode Single Actuation Off-time (off_t) 0.1/0.001 6553.5/65.535 secs Minimum off-time (M_of) 0.1 6553.5 secs Off-time (off_t) 0.1/0.001 6553.5/65.535 secs On-time (on_t) 0.1/0.001 6553.5/65.535 secs 0.1 6553.5 secs 0.1/0.001 6553.5/65.535 secs Repeat OFF Mode Multiple Actuation Off-time (off_t) 0.1/0.001 6553.5/65.535 secs On_t 0.1/0.001 6553.5/65.535 secs Texmate Inc. Tel. (760) 598 9899 www.texmate.com 13

Advanced Functions Mode Set Up Register Reset and Setpoint Trigger Functions Tiger Programming Code Sheet Programming Tip If you do not require any of the functions in this mode, ensure it is set : Programming Tip This mode can not be accessed if the setpoint (SPC_1 SPC_6) is in the PID mode. From Page 12, 3rd digit [7] Select Reset Trigger Select Reset Destination Register Selecting [OFF] in the Destination Register Reset Setup takes you Setpoint Print Trigger Setup Select Print Triggered by Setpoint Select Log Triggered by Setpoint Reset SPC 0 [BREAK] [BOTH] the butns cycle through the menu [DISP] [RESULT] [LEVEL] Reset Destination Mode The reset destination mode allows you select a register be reset using the contents of another register triggered by a setpoint. See diagram below. Reset Trigger Select the reset trigger from 1 of 4 relay operating modes. Reset Destination Register Select the register be reset from the commonly used register set 1 16383. Reset Mode 1. Select [REG]. 2. Contents of selected register copied in reset destination register. [CH_1] CH_7 [TOT_1] [TOT_6] [PEAK_1] [VALY_1] [PEAK_2] [VALY_2] [PEAK_3] [VALY_3] [AUX_1] [AUX_16] Registers [ 111] [16383] Selecting any destination register takes you Mode Reset the butns select a register as the data source for the setpoint (111 16383) SP1 SP6 the butns cycle through the menu Reset Trigger Select reset trigger from 1 of 4 relay operating edges Select Reset Mode [I-S+C] [D+C] [REG] Select [REG] access the source parameter select the number of the Modbus register in the meter be copied the reset destination register Reset Destination Register Select register be reset Select Reset Constant Sets from 0 199999 Sets from 0 999999 Reset Mode Select [Reg] in reset mode Contents of register copied in reset destination register the and butns cycle thru the Registers Menu and Registers (111 16383) select the data source for displays, peak and valley, talizers, and analog output. Copy contents of selected register Registers [ 111] [16383] [AUX_1] [AUX_16] The the [TARE] [VALY_3] [DISP] [RESULT] butn takes you forward, butn takes you back. Constant pressure on the butn moves thru Registers 111 65536 one register at a time. Note, not all registers between 111 and 16383 are available. [PEAK_3] [VALY_2] [CH_1] [CH_7] [TOT_1] [TOT_7] [PEAK_1] [VALY_1] [PEAK_2] Texmate Inc. Tel. (760) 598 9899 www.texmate.com 14

Detailed Descriptions and Explanations Tiger Programming Code Sheet 1st Digit in Setpoint Programming Mode Following is a detailed description of the options available on the 1st digit of the setpoint programming mode SPC settings listed on Page 12. 0 Energizes ABOVE setpoint value HYSTERESIS selected relay energizes AT OR ABOVE setpoint value plus hysteresis counts. De-energizes BELOW setpoint value minus hysteresis counts. If hysteresis set with ZERO counts, relay energizes AT OR ABOVE the setpoint value. DEVIATION selected relay energizes INSIDE deviation band (setpoint ± deviation counts). De-energizes OUTSIDE deviation band (setpoint ± deviation counts). PID selected controls ABOVE setpoint value. 1 Energizes BELOW setpoint value FIRST DIGIT SETPOINT AND RELAY CONTROL FUNCTION SETTINGS Relay Energize Function HYSTERESIS selected relay energizes BELOW setpoint value minus hysteresis counts. De-energizes AT OR ABOVE setpoint value plus hysteresis counts. If hysteresis set with ZERO counts, relay energizes BELOW the setpoint value. DEVIATION selected relay energized OUTSIDE deviation band (setpoint ± deviation counts). De-energized INSIDE deviation band (setpoint ± deviation counts). PID selected controls BELOW setpoint value. 2 Energizes AT OR ABOVE setpoint value with FALLING SIGNAL INITIAL START-UP INHIBIT HYSTERESIS selected relay energizes AT OR ABOVE setpoint value plus hysteresis counts with FALLING SIGNAL INITIAL START-UP INHIBIT. De-energizes BELOW setpoint value minus hysteresis counts with FALLING SIGNAL INITIAL START-UP INHIBIT. If hysteresis set with ZERO counts, relay energizes AT OR ABOVE the setpoint value. DEVIATION selected relay energizes INSIDE deviation band (setpoint ± deviation counts) with FALLING SIGNAL INITIAL START-UP INHIBIT. Deenergizes OUTSIDE deviation band (setpoint ± deviation counts) with FALLING SIGNAL INITIAL START-UP INHIBIT. PID selected controls ABOVE setpoint value. 3 Energizes BELOW setpoint value with RISING SIGNAL INITIAL START- UP INHIBIT Explanation of Hysteresis and Deviation Functions Each setpoint can be individually programmed energize the relay in the hysteresis or deviation mode, with or without initial start-up inhibit. Hysteresis (also known as 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 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 10 counts, the hysteresis band around the setpoint setting is 20 counts, starting at 490 counts and ending at 510 counts. Hytseresis + SP + SP Hysteresis Band Energized Below Hysteresis Band Energized Above Hytseresis with Initial Start Up Inhibit + Hysteresis SP Band Energized Below + SP Hysteresis Band Energized Above ONLY when 2nd phase of signal rises above hysteresis band Deviation (passband) is the programmable setting around which the setpoint can be programmed energize the relay inside or outside the deviation band. The deviation setting can be any value between 1 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 1000 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 1035 counts. Deviation + SP Deviation Band Energized Inside Deviation with Initial Start Up Inhibit + Deviation SP Band Energized Inside Explanation Of Setpoint Trigger Functions The setpoint reset functions are available on all 6 setpoints.the various parameters of the reset function are described as follows. Trigger Type The trigger parameter gives the option of selecting which edge of the relay operation the reset function, print function, and data logging function should activate on. It can be set either: Off Disables all trigger functions Make operates on the make edge only. Break operates on the break edge only. Both operates on both make and break edges. Level operates after every sample period if relay is ON. Reset Destination The reset destination parameter defines the target register in the meter that is be modified in some way when the reset trigger conditions for this relay are met. Any Modbus register number from 111 16383 can be selected as a reset destination. If the [DEST] parameter is set [OFF], the reset function is disabled and the Reset Mode and Reset Constant/Source selection are not displayed. The setup sequence jumps straight the Print parameter. Reset Mode The reset mode parameter defines what type of reset effect is required. The following different options are available. CONST This mode sres a user defined constant in the selected destination register. In most cases this number will be zero but it can be any number. I-S+C This mode sres the current input value I, defined by the setpoint source, minus the setpoint value S plus a user defined constant C. It would normally be used with a counting or talizing application where the amount of setpoint overshoot needs be retained after the reset function. The constant value would normally be zero but could be used provide an offset if required. D+C This mode adds the user defined constant C the current value in the selected reset destination register D. It can be used increment or decrement a register by any amount. REG This mode copies the contents of a user selectable register in the reset destination register (see Reset Constant select the source register). It can be used capture data on an event and sre it in an unused channel for display or analog output, etc. Reset Constant This parameter defines the constant value be used in the CONST, I-S+C, D+C modes as previously explained. Its default value is zero. This parameter is not available if REG is selected as the reset mode. Source (only available in Reg mode) If the reset mode is set REG then the source parameter allows you select the number of the Modbus register in the meter be copied the reset destination register. Resetting and Incrementing Using Setpoints Setpoints may be used reset and/or increment registers. In the example shown opposite, 2 liter soft drink bottles are being filled and packed 12 a case. Using the setpoint reset and increment feature, the number of bottles and the tal number of filled cases is easily calculated and displayed. Totalizer 1 counts from 0 2, resets, and repeats. CH2 counts from 0 12, resets, and repeats. HYSTERESIS selected relay energizes BELOW setpoint value plus hysteresis counts with RISING SIGNAL INITIAL START-UP INHIBIT. De-energizes BELOW setpoint value minus hysteresis counts with RISING SIG- NAL INITIAL START-UP INHIBIT. If hysteresis set with ZERO counts, relay energizes BELOW the setpoint value. DEVIATION selected relay energizes OUTSIDE deviation band (setpoint ± deviation counts) with RISING SIGNAL INITIAL START-UP INHIBIT. Deenergizes INSIDE deviation band (setpoint ± deviation counts) with RISING SIGNAL INITIAL START-UP INHIBIT. PID selected controls BELOW setpoint value. + SP Deviation Band Energized Outside SP Deviation Band Energized Outside See Setpoints & Relays Supplement (NZ201) for a detailed explanation of the hysteresis and deviation modes. + Flow Sensor Flow Rate Channel 1 Using Setpoints Increment and Reset Registers Flow Totalizer 1 S O U R C E R E S E T SP5 = 2.00 Hi Setpoint S O U R C E T SP6 = 2.00 Hi Setpoint Bottles Channel 2 I N C R E M E N S O U R C E R E S E T SP4 = 12 Hi Setpoint S O U R C E Filled Cases Channel 3 I N C R E M E N T SP3 = 12 Hi Setpoint Texmate Inc. Tel. (760) 598 9899 www.texmate.com 15