THE NEW STANDARD FOR QUALITY INF-B Universal Input Meter Operator’s Manual NEWPORT Electronics, Inc. http://www.newportUS.
Additional products from ® NEWPORT Electronics, Inc. Counters Frequency Meters PID Controllers Clock/Timers Printers Process Meters On/Off Controllers Recorders Relative Humidity Transmitters Thermocouples Thermistors Wire Rate Meters Timers Totalizers Strain Gauge Meters Voltmeters Multimeters Soldering Iron Testers pH pens pH Controllers pH Electrodes RTDs Thermowells Flow Sensors For Immediate Assistance ® In the U.S.A.
Table of Contents SECTION 1 1.1 1.2 1.3 1.4 INTRODUCTION Description....................................................................................................................1 Features........................................................................................................................1 Available Options and Accessories ..............................................................................2 Modes of Operation ..............................................................
Table of Contents SECTION 7 7.1 7.2 7.3 7.4 7.5 7.6 SIGNAL AND POWER INPUT CONNECTIONS Introduction ................................................................................................................29 Signal Input Connections -Process ............................................................................29 Signal Input Connections - Temperature ....................................................................31 Signal Input Connections - Strain ......................................
Table of Contents SECTION 17 MULTI-POINT SCALE AND OFFSET MENU CONFIGURATION FLOWCHART ....65 SECTION 18 MULTI-POINT SCALE AND OFFSET MENU CONFIGURATION: (MP.SC.OF) ......66 SECTION 19 OUTPUT CONFIGURATION MENU FLOWCHART ..................................................70 SECTION 20 OUTPUT CONFIGURATION MENU: (OUt.CNF) 20.1 ANA.OUt Enter Output Configuration Menu ............................................................71 20.2 Ot.SC.OF Enter output Scale and Offset Configuration Submenu.................
Table of Contents SECTION 31 31.1 31.2 31.3 31.4 31.5 31.6 31.7 31.8 31.9 31.10 31.11 31.12 31.13 31.14 31.15 31.16 31.17 31.18 31.19 EXTERNAL CONTROL LINES TARE (PIN 1) ............................................................................................................101 PEAK (PIN 2)............................................................................................................101 VALLEY (PIN 3) ..........................................................................................
Figures Figure 4-1 Figure 4-2 Figure 4-3 Figure 5-1 Figure 5-2 Figure 5-3 Figure 5-4 Figure 5-5 Figure 5-6 Figure 5-7 Figure 5-8 Figure 5-9 Figure 5-10 Figure 6-1 Figure 7-1 Figure 7-2 Figure 7-3 Figure 7-4 Figure 7-5 Figure 7-6 Figure 7-7 Figure 7-8 Figure 7-9 Figure 7-10 Figure 7-11 Figure 7-12 Figure 7-13 Figure 7-14 Figure 7-15 Figure 7-16 Figure 7-17 Figure 7-18 Figure 7-19 Figure 7-20 Figure 7-21 Figure 7-22 Figure 33-1 Front Detail.....................................................................
Tables Table 4-1 Rear Connector Descriptions ........................................................................................11 Table 5-1 Main Board Jumper Selection Table..............................................................................18 Table 5-2 RS-232 / RS-485 Jumper Selection Table ....................................................................19 Table 5-3 4 Relay Board Jumper Selection Table ........................................................................
Notes, Warnings, and Cautions Information that is especially important to note is identified by these labels: • NOTE • WARNING • CAUTION • IMPORTANT NOTE: provides you with information that is important to successfully setup and use the Programmable Digital Meter. CAUTION or WARNING: tells you about the risk of electric shock. CAUTION, WARNING or IMPORTANT: tells you of circumstances or practices that can effect the meter's functionality and must refer to accompanying documents.
Notes viii
Introduction 1 1.1 Description This versatile ultra high-performance meter handles a broad spectrum of dc voltage and current ranges, nine thermocouple types, multiple RTD's, and signals from strain gauge transducers such as load cells and pressure transducers, as well as potentiometric inputs. It also features ten point linearization of input signals, progammable by the user for custom applications.
1 Introduction 1.3 Available Options and Accessories The following options are available. Optional boards are either installed at the time of purchase, or available as separate items and installed by the user after purchase. -T/C Thermocouple Temperature Compensation Connector Kit -4R Four Form-C SPDT Relay Output Board -A -C24 -EI Isolated 14 bit Analog Output Board Serial Communications RS-232* + RS-485** + MODBUS Ethernet/Internet Choose between Ethernet or Serial Communication option per meter.
Introduction 1 1.4 Modes of Operation • This unit has two different modes of operation. The first, Run Mode, is used to display values for the process variable, and to display or clear peak and valley values. The other mode, Menu Configuration Mode, is used to navigate through the menu options and configure the controller. Section 10 of this manual will explain the Menu Configuration Mode.
2 Unpacking Unpack all items and make sure that every item on the packing list is present. The items you should receive are listed below. If something is missing, use the phone number, listed in this manual, for the Customer Service Department nearest you. Also, inspect the shipping container and enclosed equipment for any signs of damage. Take particular note of any evidence of rough handling in transit. Immediately report any damage to the shipping agent.
Unpacking 1 Rear Protective Cover with Screw 1 20-Socket Ribbon Connector (P2 Connector) 2 Panel-Mounting Gaskets (1 Spare) 1 Operator’s Manual 2 Other items may also be in the box depending on the options ordered. Refer to specific options as described previously.
3 Safety Considerations 3.1 SAFETY CONSIDERATIONS This device is marked with the international caution symbol. It is important to read this manual before installing or commissioning this device as it contains important information relating to Safety and EMC (Electromagnetic Compatibility). Unpacking & Inspection Unpack the instrument and inspect for obvious shipping damage. Do not attempt to operate the unit if damage is found.
Parts of the Meter 4 4.1 FRONT OF THE METER The following is a brief description of each part of the front of the meter. 1 SETPTS 2 3 / MAX 4 ˚C / MIN MENU ˚F ˚K RESET Figure 4-1. Front Detail ITEM DESCRIPTION 1 –.8.8.8.8.8 or 8.8.8.8.8.8 6-digit, 9 segment, alphanumeric 0.68” high LED display with programmable decimal point. 2 SETPOINT LED These LEDs, labeled 1 through 4, display the status of setpoints.
4 Parts of the Meter BUTTON SETPTS Function in Configuration Mode • This button functions only in Run Mode. When the Setpoint/Alarm features are unlocked, pressing this button sequentially recalls the previous setpoint settings to the display. After the ‘䊳/MIN’ and ‘䊱/MAX’ buttons are used to alter those values, as desired, pressing the ‘SETPTS’ button again, stores these new values.
Parts of the Meter BUTTON 4 Function in Configuration Mode • To enter the Menu, the user must first press ‘MENU’ button. MENU a • To select “older -style” of Menu Configuration, "MENU 2", press ‘MENU’ button while Display is showing Firmware Version Number and only after applying the power. Use ‘䊱/MAX’ to select "MENU 2" or "MENU 1" the default modern Menu Navigation option. Press ‘MENU’ button again to store your Menu selection.
4 Parts of the Meter 4.2 REAR OF THE METER The following is a brief description of each part of the rear of the meter. The labeling on the top of the mounting sleeve (not the case) identifies the location of the connectors found at the rear of the meter. Figure 4-2 shows this labeling.
Parts of the Meter 4 Figure 4-3 shows the rear of the meter with the optional 4-relay output board, ethernet board and analog output board installed. 1 1 1 P6 1 P7 1 P18A COL 1 1 J4 P1 L N 1 P9 P18B P5 1 ON 1 P2 19 ETHERNET P3 RESET Figure 4-3.
5 Setup 5.1 CONDITIONS REQUIRING DISASSEMBLY You may need to remove the sleeve or open the unit for several reasons: 1. To inspect the rating label on the case (Section 5.2.1). 2. To install optional output board(s) (Section 5.2.2). 3. To mount the unit in a panel (Section 5.2.4). 5.2 ASSEMBLY/DISASSEMBLY OPENING THE UNIT Your unit is fully assembled, but not wired. See Section 7 for wiring connection for power and sensor inputs.
Setup 5 COVER MOUNTING SCREW PROTECTIVE COVER THUMBNUTS GASKET SLEEVE AC POWER BOARD MAIN BOARD ASSY CASE BEZEL Figure 5-1. Meter Exploded View Using Figures 5-1 as a guide, follow these simple instructions to open the unit: IMPORTANT: Turn-off the power and input signals from the unit before proceeding. Failure to do so may result in injury! 1. Remove the cover mounting screw that secures the rear protective cover to the unit, and remove the Rear Protective Cover.
5 Setup L E TAL INS MOV TO O RE T SIGNAL INPUT JUMPER LABEL PRODUCT IDENTIFICATION LABEL MAIN BOARD ASSY BEND DETENTS OUTWARD TO INSTALL/REMOVE MAIN BOARD CASE Figure 5-2. Board Assembly Removing/Installing Detail The meter is now disassembled to the point where you can check and configure jumpers and install option boards. REINSERTING THE MAIN BOARD ASSEMBLY INTO THE CASE Reinsert the Main Board into the case once jumpers and optional boards have been configured and installed.
Setup 5 5.2.1 SAFETY PRECAUTION/PRODUCT ID LABEL To look at the Rating/Product ID label on the case, you must follow the first step as described in Section 5-2. Refer to Figure 5-2 for the location of the Product Identification label. The meter is protected in accordance with Class I of EN61010. Refer to Safety Considerations page.
5 Setup 5.2.2 OPTIONAL BOARD(S) INSTALLATION To install optional printed circuit board(s): 1. “Reveal the Main Board” (refer to Section 5.2, Disassembly). 2. Using Figure 5-3 as a reference, insert option board(s) into the corresponding connector(s) on the main board. Each circuit board is keyed to fit in it’s own position. 4 RELAY OUTPUT BD P10 ANALOG OUTPUT BD P12 RS232/RS485 BD 1 10 P11 ETHERNET BD 1A SIGNAL INPUT BD 11 P11 AC POWER BD 4 1 11 J11 10 J12 J10 1A 4 11 Figure 5-3.
5 Setup 5.2.3 HOW TO ACCESS JUMPERS To gain access to jumper S1 and S2 used to configure input type remove the mounting sleeve. The jumpers may be accessed through the slot in the case. To gain access to jumpers on the main board, for excitation and lockout selection: 1. “Reveal the main board” (refer to Section 5.2, Disassembly). To access the S1 and S2 jumpers on the Signal Input Board, you only need to remove the mounting sleeve. 2. To re-assemble the meter, follow the steps in reverse order.
5 Setup DISPLAY BOARD C B A S3 POTENTIOMETER SIGNAL INPUT BOARD S3 R39 J9 S4 A J3 S4 "A" "B" J2 SOLDER-SWITCH "A" & "B"LOCATED ON UNDERSIDE OF BOARD J1 MAIN BOARD AC POWER BOARD Figure 5-5. Main Board S3A S3B (not installed) S3C S4A (installed) + solder-switch B S4A (not installed) + solder-switch A Unlocks Pushbutton Programming Factory Calibration only, do not install. Unlocks Lockout menus Selects 10 Vdc Sensor Excitation Selects 24 Vdc Sensor Excitation Table 5-1.
Setup A B C D 5 E A S3 S2 6 S3 A J4 1 S4 A B S1 S4 S2 1 P1 A 11 S1 Refer to your Serial Communications Option Manual for more details. 11 Figure 5-10. Analog Output Option Board Figure 5-7.
5 Setup P18B P18A P7 P6 S1 P1 0 S2 S1 Refer to your Relay Output Option Manual for more details. C D B A A D B C S2 Figure 5-8. 4 Relay Output Option Board The table below shows which jumpers are assigned to each relay. Defaults have asterisks.
Setup 5 1 J5 1A 2 P1 S1-A must be closed. 1 S1 10 Refer to your Analog Output Option Manual for more details. A S1 Figure 5-9. Analog Output Option Board 5.2.4 PANEL-MOUNT ASSEMBLY The meter can be mounted in a panel so that the front of the meter is flush with the vertical panel surface. Panel mounting can be seen as simply “sandwiching” the panel between the inner case and the outer sleeve in the last phases of assembly.
5 Setup PANEL THICKNESS 0.25 [6.4] MAX 0.03 [0.8] MIN R 0.06 [1.5] 4PLCS REAR PROTECTIVE COVER COVER MOUNTING SCREW 1.772 +0.024/-.000 [45.00 +0.61/-0.00] THUMBNUTS 3.622 +0.032/-.000 [92.00 +0.81/-0.00] PANEL SLEEVE METER CASE GASKET BEZEL Figure 5-10. Panel Mounting Assembly 6. Punch or cut a hole in the panel using the panel cutout dimensions in Figure 5-10. Remove burrs and paint the panel as required. 7.
Setup 5 WARNING: Do not “turn-on” the ac power and input signals until all connections are connected to the meter. 11. Set P1, the AC power connector, aside and connect or reconnect all other connectors to the back of the meter using Figure 4-3 in Section 4.2 as guides. Connect P1 last. The P1 connector is “keyed”; it is shaped in such a way that it fits only the J1 male pins. 12. Replace the rear protective cover and secure it with the cover mounting screw.
6 Jumper Settings This section is for the configuration and setup of your jumper positions for readrate, unipolar or bipolar signal input, sensor input signal jumpers, sensor excitation jumpers, pushbutton lockouts and lockout of lockout configuration menus. A L K J H G F E 1 C D B J9 S2 1 J3 S2 S1 K J G L F E D C B A H S1 Figure 6-1.
Jumper Positions 6 6.1 THERMOCOUPLE Input: S1_G/J; S2_A/B/K, jumpers are closed as shown: S1 S2 6.2 RTD Input: 6.2.1 For RTDs: S1_H; S2_A/B/F/J, jumpers are closed as shown: S1 S2 6.2.2 For RTD 10 ohm copper: S1_H; S2_A/B/F/J/L, jumpers are closed as shown: S1 S2 6.3 VOLTAGE/PROCESS VALUE Input: 6.3.1 For ± 50mV, 0-100mV ranges: S1_K; S2_A/B/G/H, jumpers are closed as shown: NOTE: For some applications, the internal excitation is required; install jumpers G and H on S2 (as factory preset).
6 Jumper Positions 6.3.4 For ± 50V, 0-100V ranges: S1_K/A/B; SD2_G/H, jumpers are closed as shown: S1 S2 6.4 CURRENT/PROCESS VALUE Input: 6.4.1 For 0-20mA or 4-20mA range: S1_K; S2_A/B/C/D, jumpers are closed as shown: S1 S2 6.5 BRIDGE Input: 6.5.1 For ± 50mV, 0-100mV ranges with Internal Excitation: S1_L; S2_A/B/G/H, jumpers are closed as shown: S1 S2 6.5.2 For ±50mV, 0-100mV ranges with External Excitation: S1_L; S2_A/B/H, jumpers are closed as shown: S1 S2 6.5.
Jumper Positions 6 6.5.5 For ± 5V, 0-10V ranges with Internal Excitation: S1_L/C/D; S2_G/H, jumpers are closed as shown: S1 S2 6.5.6 For ± 5V, 0-10V ranges with External Excitation: S1_L/C/D; S2_H, jumpers are closed as shown: S1 S2 6.5.7 For ± 50V, 0-100V ranges with Internal Excitation: S1_L/A/B; S2_G/H, jumpers are closed as shown: S1 S2 6.5.8 For ± 50V, 0-100V ranges with External Excitation: S1_L/A/B; S2_H, jumpers are closed as shown: S1 S2 6.5.
6 Jumper Positions 6.5.11 POTENTIOMETER Input: S1_K/G/C/D; S2_C/G/H jumpers are closed as shown: S1 S2 Jumper Function S4A (installed) + solder jumper B Selects 10 Vdc Sensor Excitation S4A (not installed) + solder jumper A Selects 24 Vdc Sensor Excitation Table 6-1. Sensor Excitation Main Board Jumper Selection Refer to Figure 5-5 for solder jumper locations.
Signal and Power Input Connections 7 7.1 INTRODUCTION The following describes how to connect your sensors to your meter with and without sensor excitation and how to connect the AC power to your meter. Prior to wiring the sensor to the meter, check with a multimeter that a proper excitation exists. WARNING: Do not connect ac power to your meter until you have completed all input and output connections.
7 Signal and Power Input Connections NC +S +OUTPUT VOLTAGE –S -OUTPUT 1 P9 2 3 METER NC NC NC 1 P3 2 3 Figure 7-3. Voltage Input Without Sensor Excitation +E +EXCITATION +S +OUTPUT VOLTAGE –S COMMON 1 P9 2 3 METER –E 1 JUMPER USER PROVIDED NC +R -R Jumper S2-C Closed P3 2 3 Figure 7-4.
Signal and Power Input Connections +E 1 +S 7 P9 2 –S 3 METER -E 1 JUMPER USER PROVIDED +R P3 2 -R 3 Figure 7-6. Potentiometer Connections with Internal Power Supply and Ratio Measurement. NC +S –S 1 P9 2 3 METER –E 1 JUMPER USER PROVIDED +R -R P3 2 3 Figure 7-7. Potentiometer Connections with External Power Supply and Ratio Measurement (Remove Jumper S2-G) 7.
7 Signal and Power Input Connections +E 1 +S P9 2 –S RTD 3 METER NC NC –E 1 +R P3 2 –R 3 Figure 7-9. RTD Connections with 2-wire RTD +E 1 +S P9 2 RTD –S 3 METER NC –E 1 +R P3 2 –R 3 Figure 7-10. RTD Connections with 3-wire RTD +E 1 +S P9 2 RTD –S 3 METER NC NC –E 1 +R P3 2 –R 3 Figure 7-11.
Signal and Power Input Connections 7 7.4 SIGNAL INPUT CONNECTIONS - STRAIN The following Figures (7-12 through 7-19) show the connections for voltage, current and potentiometer inputs: (+) NC +S (4-20mA) (-) + –S - 1 P9 2 3 METER NC NC NC 1 2 P3 3 Figure 7-12. Current Input Without Sensor Excitation (+) +E +S (4-20mA) (-) NC –S 1 P9 2 3 METER –E JUMPER USER PROVIDED 1 NC GND 2 P3 3 rren Figure 7-13.
7 Signal and Power Input Connections +EXCITATION +OUTPUT VOLTAGE +E +S –S COMMON 1 P9 2 3 METER –E 1 NC JUMPER USER PROVIDED GND Jumper S2-C Closed P3 2 3 Figure 7-15. 3-Wire Voltage Input With Sensor Excitation +EXCITATION +OUTPUT VOLTAGE +E +S –S -OUTPUT 1 P9 2 3 METER -EXCITATION –E 1 NC GND P3 2 3 Figure 7-16. 4-Wire Voltage/Bridge Input With Sensor Excitation +E +S +50 mV –S 1 P9 2 3 METER –E 1 NC NC P3 2 3 Figure 7-17.
Signal and Power Input Connections +E +S –S 1 P9 2 3 METER –E JUMPER USER PROVIDED 1 +R GND 7 P3 2 3 Figure 7-18. Potentiometer Connections with Internal Power Supply and Ratio Measurement NC +S –S 1 P9 2 3 METER –E JUMPER USER PROVIDED 1 +R GND P3 2 3 Figure 7-19.
7 Signal and Power Input Connections 7.5 COLD JUNCTION COMPENSATION BOARD INSTALLATION FOR THERMOCOUPLES To setup the rear protective cover with the P3 and P9 connectors (and Cold-Junction Compensation Board), proceed with the following (Refer to Figure 7-20). 1) Obtain P3 and P9 connectors and the thermocouple rear protective cover. 2) Put the two (2) connectors P3 and P9 into the corresponding male connectors at the rear of the meter. Refer to Figure 4-3 for the location of the male connectors.
Signal and Power Input Connections 7 7.5.1 COLD JUNCTION COMPENSATION BOARD WIRING Figure 7-21 shows the wiring hookup for thermocouples. Use the following table to determine which colored wired get connected to the positive and negative terminals. Note: Positive (+) and Negative (-) wiring designations are molded into the plastic cover. +E 1 + J1 +S P9 2 –S 3 TC – METER J2 –E T/C COLD JUNCTION COMPENSATION BOARD 1 +R P3 2 –R 3 Figure 7-21. Directly-Connected Thermocouple 7.5.
7 Signal and Power Input Connections FRANCE WIRE COLORS _ LEAD + LEAD WIRE COLORS _ LEAD + LEAD J K T E N R S B DIN J Yellow Black Yellow Purple Yellow Blue Yellow Purple No Standard-See USA Yellow Green Yellow Green Use Copper Wire Red Blue Red Blue Red Green Red Brown Red Black No Standard-See USA Red White Red White Red Gray Red Blue T/C TYPE WIRE COLORS _ LEAD + LEAD WIRE COLORS _ LEAD + LEAD J K T E N R S B DIN J Red White Red White Red White Red White No Standard-See USA Red White Red White
Signal and Power Input Connections 7 7.6 AC WIRING CONNECTION Wire your power (from a wall socket or other source) to P1, the orange, 3-socket connector that plugs into the 3 pins on the left side as you view the meter from the rear.
8 Setpoint Settings Menu Flowchart 8 SETPOINT SETTINGS MENU FLOWCHART push RUN :Run mode SETPTS button SP1 :Setpoint 1 00000.0 SP2 00000.0 SP3 00000.0 SP4 00000.0 RUN :Setpoint 1 Value :Setpoint 2 :Setpoint 2 Value :Setpoint 3 :Setpoint 3 Value :Setpoint 4 :Setoint 4 Value :Run mode Once this ‘SETPTS’ button is pressed, each of the four setpoints’ value will be displayed for approximately 10 sec.
Setpoint Settings Menu 9 9 ACTIVE BUTTONS: ‘SETPTS’, ‘䊱/MAX’, ‘ 䊳/MIN’. Press ‘SETPTS’ 1) The display shows "SP1" momentarily then "00000.0" or previous setpoint value with first digit flashing. If any digit or value is not flashing that setpoint value‘s modification, the ‘MAX’ and ‘MIN’ buttons are disabled or locked. (Refer to LCk.CNF Menu Configuration to unlock the setpoint for regaining access of those buttons).
10 Main Menu Configuration Flowchart 10 MAIN MENU CONFIGURATION FLOWCHART push RUN MENU button INPUt NO :Run mode :INPUT selection Menu RdG.CNF :READING CONFIGURATION Menu INP.CNF :INPUT CONFIGURATION Menu MP.SC.OF :MULTI-POINT SCALE & OFFSET CONFIGURATION Menu OUt.CNF :OUTPUT CONFIGURATION Menu SP.CNF :SETPOINT CONFIGURATION Menu AL.CNF :ALARM CONFIGURATION Menu Communication Option Board Installed? YES COMM :COMMUNICATION CONFIGURATION Menu COLOR :LED COLOR SELECTION Menu LCk.
Input Type Menu Flowchart 11 11 INPUT TYPE MENU FLOWCHART: (INPUt) INPUt tC TC TYPE Rtd RTD TYPE J tC k tC t tC E tC N tC dNJ tC R tC S tC b tC 2Pt 392 (2 Wire, 100 Ohms, NIST RTD, alpha-0.00392) 3Pt 392 (3 Wire, 100 Ohms, NIST RTD, alpha-0.00392) 4Pt 392 (4 Wire, 100 Ohms, NIST RTD, alpha-0.00392) 2Pt 385 (2 Wire, 100 Ohms, NIST RTD, alpha-0.00385) 3Pt 385 (3 Wire, 100 Ohms, NIST RTD, alpha-0.00385) 4Pt 385 (4 Wire, 100 Ohms, NIST RTD, alpha-0.00385) 3.L INR (3 Wire linear RTD) 4.
12 Input Type Selection 12 INPUT TYPE SELECTION: (INPUt) 12.1 INPUT TYPE: (THERMOCOUPLE) INPUt ENTER INPUT TYPE MENU: Press ‘MENU’ 1) Display shows "INPUt" Input Menu. Press ‘RESET/ENTER’ 2) Display flashes "VOLt" or previous stored input type. Press ‘䊱/MAX’ 3) Scroll through the available following input type selection list. Display flashes: "VOLt" (DC Voltage) "CURRNt" (DC Current) "bRIdGE" (Bridge) "POt" (Potentiometer) "tC" (Thermocouple) "Rtd" (RTD).
Input Type Selection 12 12.2 INPUT TYPE: ( RTD ) ENTER INPUT TYPE MENU: Press ‘MENU’ 1) Display shows "INPUt" Input Menu. Press ‘RESET/ENTER’ 2) Display flashes "VOLt" (default) or previous stored input type. Press ‘䊱/MAX’ 3) Scroll through the available following input type selection list.
12 Input Type Selection 12.3 INPUT TYPE: (DC VOLTAGE/PROCESS VALUE) ENTER INPUT TYPE MENU: Press ‘MENU’ 1) Display shows "INPUt" Input Menu. Press ‘RESET/ENTER’ 2) Display flashes "VOLt" (default) or previous stored input type. Press ‘䊱/MAX’ 3) Scroll through the available following input type selection list.
Input Type Selection 12 12.4 INPUT TYPE: (DC CURRENT) ENTER INPUT TYPE MENU: Press ‘MENU’ 1) Display shows "INPUt" Input Menu. Press ‘RESET/ENTER’ 2) Display flashes "VOLt" (default) or previous stored input type. Press ‘䊱/MAX’ 3) Scroll through the available following input type selection list.
12 Input Type Selection 12.5 INPUT TYPE: (BRIDGE) ENTER INPUT TYPE MENU: Press ‘MENU’ 1) Display shows "INPUt" Input Menu. Press ‘RESET/ENTER’ 2) Display flashes "VOLt" (default) or previous stored input type. Press ‘䊱/MAX’ 3) Scroll through the available following input type selection list.
Input Type Selection 12 12.6 INPUT TYPE: (POTENTIOMETER) ENTER INPUT TYPE MENU: Press ‘MENU’ 1) Display shows "INPUt" Input Menu. Press ‘RESET/ENTER’ 2) Display flashes "VOLt" (default) or previous stored input type. Press ‘䊱/MAX’ 3) Scroll through the available following input type selection list.
13 Reading Configuration Menu Flowchart 13 READING CONFIGURATION MENU and FLOWCHART: (RdG.CNF) RdG.CNF dIRECt ENAbLE Rd.SC.OF RdG SC (value) RdG OF (value) 2.C d INt (Reading Scale & Offset) (2 coordinate formula) dISAbL Offset=0 Scale=1 UNt.tMP (Temperature Unit) C F ON.LINE MANUAL INPUt 1 INPUt 1 (Input 1 value) k yES (Input 1 value) REAd 1 dP.ACt V REAd 1 (Decimal Point Active) NO (Read 1 value) dEC Pt (Read 1 value) (Decimal Point) dP.
Reading Configuration Menu 14 14 READING CONFIGURATION MENU: RdG.CNF ENTER READING CONFIGURATION MENU: Press ‘MENU’ Press ‘RESET/ENTER’ Press ‘MENU’ 1) Twice though Main Menu items and display shows "RdG.CNF ". 2) Display shows "Rd.SC.OF " Reading Scale & Offset menu. 3) Scroll through the following sequence of available Reading Configuration Menu selection list: "Rd.SC.OF" (Reading Scale & Offset) "Unt.tMP" (Temperature Unit) "dEC Pt" (Decimal Point) "FILtER" (Reading Filters) "FLS.
14 Reading Configuration Menu Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 4) To enter Reading Scale & Offset configuration Submenu if display shows "Rd.SC.OF" (First Item of "RdG.CNF" Menu). 5) Display shows and flashes "dISAbL" disable (as default, Reading Scale=1.0 and Reading Offset=0.0). 6) Display flashes either "ENAbLE" or "dISAbL". Select your choice and press ‘RESET/ENTER’. If "dISAbL" selected, display advances to "UNt.tMP" Temperature Unit selection Submenu.
Reading Configuration Menu 2.Cd In 14 READING SCALE & OFFSET 2-COORDINATE FORMAT MENU: Input voltage or current can be converted or scaled into values appropriate for the process or signal being measured. A reading may be displayed, for example, in units of weight or velocity instead of in amperes and volts. The controller determines scale and offset values based on two user-provided input values entered with the corresponding readings.
14 Reading Configuration Menu Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ & ‘ 䊳/MIN’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ 22) Display shows "xxxxxx" some 6-digit number, represents the value of "INPUt 0" as taken from live input source measurement for desired value. 23) Display shows "REAd 0" Item #2 of coordinate #1. 24) Display shows "xxxxxx" some 6-digit number with first digit flashing, represents the value of "REAd 0" item #2 of coordinate #1.
Reading Configuration Menu 14.2 UNt.tMP Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ 14.3 dEC Pt 14 Enter TEMPERATURE UNIT SELECTION SUBMENU: 1) To enter TEMPERATURE UNIT SELECTION Submenu if display shows "UNt.tMP" (Second Item of "RdG.CNF" Menu). 2) Display shows flashing "C" (default) and front display shows °C accordingly at the bottom right side or previous temperature Unit selection.
14 Reading Configuration Menu 14.4 FILtER Enter FILTER CONFIGURATION SUBMENU: Press ‘RESET/ENTER’ 12) Display shows "CNt by" Counter by or round-off feature. To enter, Press ‘RESET/ENTER’). 13) Scroll through 3 available selections of Filter configuration: "CNt by", "FILt.tP" and "FILt.tM". Refer to the flowchart below. Press ‘MENU’ FILtER CNt by (Count By) 001 002 005 010 020 050 100 016 032 064 A.b.C.FIL FILt.tP (Adaptive Bandwidth Control Filter) (Filter Type) MOV.
Reading Configuration Menu 14.5 FLS.dSP 14 Enter FLASHING DISPLAY CONTROL SUBMENU: FLS.dSP SP1.FLS (Flashing Display) (Setpoint Flashing) ENAbLE dISAbL ENAbLE SP2.FLS dISAbL AL1.FLS (Alarm 1 Flashing) ENAbLE dISAbL ENAbLE AL2.FLS dISAbL Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘MENU’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ 14.6 bRIGHt Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ 23) Display shows "SP1.FLS" Setpoint 1 Flashing.
15 Input Configuration Menu Flowchart 15 INPUT CONFIGURATION FLOWCHART 60 INP.CNF LIN.FRE (Input Configuration ) (Line Frequency & Hz) 50 Ad.RAtE 0 (Analog to Digital Rate) 1 2 3 4 5 MOdE ENAbLE Accessible IF your INPUT selection: Yes TC C.JUN.OF dISAbL tC.CO.JC (Thermocouple Cold Junction) dISAbL ENAbLE No CAL 0 NORMAL Accessible IF your INPUT selection: bRIdGE Yes (Field Calib.) bRdG.LM (Bridge Limit) SP1.L.2.H SP1 value > lower overload limit.
Input Configuration Menu 16 16 INPUT CONFIGURATION MENU: (INP.CNF) INP.CNF ENTER INPUT CONFIGURATION MENU: INP.CNF (Input Configuration) L IN.FRE Ad.RAtE (Line Frequency in Hz) (Analog to Digital Rate) MOdE IN.SC.OF (Input Scale & Offset) Press ‘MENU’ Press ‘RESET/ENTER’ Press ‘MENU’ 1) Three times though Main Menu items and display shows "INP.CNF". 2) Display shows "L IN.FRE" Line Frequency submenu.
16 Input Configuration Menu 16.2 Ad.RAtE Enter ANALOG TO DIGITAL RATE SUBMENU: Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 7) Display flashes "0" or previous selection. 8) Scroll through the 6 available selections as 0, 1, 2, 3, 4, and 5 for your choice of selection. Refer to below Table for your specific application conversion speed. Only Rate 0 and 1 can reject 60 Hz / 50 Hz noise. Refer to Table 33-1 in Specification Section for different input and outputs types.
Input Configuration Menu 16 In case of "tC" input type: Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ 10) Display shows "tC.CO.JC" Cold-Junction Compensation for "tC" Thermocouple input type. 11) Display flashes "ENAbLE" as default or previous selection. 12) To select either "ENAbLE" or "dISAbL" for your choice of setup. 13) Display shows "C.JUN.OF" Cold-Junction Offset Adjustment menu. 14) Display flashes "dISAbL" as default. 16.3.
16 Input Configuration Menu In case of "bRIdGE" input type: Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ 16.4 IN.SC.OF 19) Display shows "bRdG.LM" Bridge Limit function menu. 20) Display flashes "NORMAL" or the previous setting. 21) Scroll the available options of setting: "NORMAL" or "SP1.L.2.H" (Setpoint 1 value would be lower overload limit and Setpoint 2 would be upper overload limit) for your choice of setting.
Input Configuration Menu 16 ON.L INE Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ & ‘ 䊳/MIN’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ 30) Display flashes "ON.L INE" On line method. 31) Scroll between 2 available selections: "ON.L INE" or "MANUAL" for the configuration option of your choice. If your choice of selection is "MANUAL", skip to Step 40). 32) Display stops flashing and shows "ON.L INE".
16 Input Configuration Menu SCALING YOUR METER Scaling your meter without a sensor or a signal source connected is easily accomplished by using one of the calculated scale factors as shown in Table below. Scaling to Display Engineering Units These calculated scale factors are the numbers that your meter would display if you connected a signal source. You must complete the procedure for preparing your meter for Scaling as described in Section 16.4 "IN.SC.OF" INPUT SCALE & OFFSET, "MANUAL".
Multi-Point Scale and Offset Menu Configuration Flowchart 17 17 MULTI-POINT SCALE & OFFSET MENU CONFIGURATION FLOWCHART MP.SC.OF 0 - 10 NUM.PNt OUt.CNF YES 0 Selected ? NO ON.LINE ON.
18 Multi-Point Scale and Offset Menu Configuration 18 MULTI-POINT SCALE & OFFSET MENU CONFIGURATION: (MP.SC.OF) For proper Multipoint Scale & Offset Configuration, user must enter the first Input (Input0) with least value, then the next one with the greater value and so forth...
Multi-Point Scale and Offset Menu Configuration 18 ON.L INE IF "ON.L INE" and "NUM.PNt" = 01 are YOUR CHOICE: (On-Line Calibration with 2 points) Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ 6) Display stops flashing "ON.L INE" On-line Calibration or Scaling. 7) Display shows "INPUt 0". 8) Display shows the actual live-input signal being received and equal to approximately the minimum input signal or 0% of known load range. 9) Display shows "StOREd" momentarily and advances to "REAd 0".
18 Multi-Point Scale and Offset Menu Configuration Determine the correct values for Inputs ("INPUt 0" and "INPUt 1"). Calculate "INPUt 0" and "INPUt 1" using the following equation: "INPUt" = (Sensor Output) x (Conversion Number) Conversion number is a coefficient of conversion between input values and real full display range (100000 counts). See table below for proper conversion number.
Multi-Point Scale and Offset Menu Configuration INPUt value = Xin RS = Reading Scale RO = Reading Offset Display Reading Value = Yrd IS = Input Scale IO = Input Offset ( . ) : Multiplication MS = Multi Scale MO = Multi Offset READING/INPUT SCALE & OFFSET MODE 18 DISPLAY READING VALUES (y = ax + b) MP.SC.OF IN.SC.OF Rd.SC.OF Yrd = (SCALE).Xin + (OFFSET) disable disable enable disable enable disable enable disable disable RS.Xin + RO IS.Xin + IO MS.
19 Output Configuration Menu Flowchart 19 OUTPUT CONFIGURATION MENU FLOWCHART VOLt ANA.OUt (Analog Output) ENAbLE MOdE CURRNt UNFILt (Unfiltered) dISAbL OUt.CNF OUt.tyP FILtRd (Output Type) (Filtered) PEAk Ot.SC.
Output Configuration Menu 20 20 OUTPUT CONFIGURATION MENU: (OUt.CNF) ANA.OUt (Analog Output) ENAbLE OUt.CNF DISAbL MOdE OUt.tyP (Output Type) Ot.SC.OF (Output Scale & Offset) OUt.CNF Enter OUTPUT CONFIGURATION MENU: Press ‘MENU’ 1) 5 times or scroll though main Menu until Display shows "OUt.CNF" Output Configuration Menu. 20.1 ANA.OUt Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 2) Display shows "ANA.OUt" Analog Output Configuration submenu.
20 Output Configuration Menu MOdE Enter OUTPUT MODE CONFIGURATION SUBMENU: Press ‘RESET/ENTER’ 5) Display shows "StOREd" stored message momentarily and advances to "MOdE" to allow users to select Output type as Voltage (0-10Vdc or Current (4-20mA-dc) source. 6) Display flashes "VOLt" (default) DC-Voltage output option or previous selection ("CURRNt" DC-Current output). Press ‘RESET/ENTER’ OUt.tyP Enter OUTPUT TYPE CONFIGURATION SUBMENU: Press ‘RESET/ENTER’ 7) Display shows "OUt.
Output Configuration Menu 20.2 Ot.SC.OF Ot.SC.OF (Output Scale & Offset) 20 Enter OUTPUT SCALE & OFFSET CONFIGURATION SUBMENU: REAd 1 OUt 1 REAd 2 OUt 2 value value value value READING 1 Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ & ‘ 䊳/MIN’ Press ‘RESET/ENTER’ 10) Display shows "REAd 1" Reading 1 menu. 11) Display flashes 1st digit of previous "REAd 1" value. 12) Enter "REAd 1" value. (Example 000000). 13) Display advances to "OUt 1" Output 1 menu.
21 Setpoint Configuration Menu Flowchart 21 SETPOINT CONFIGURATION MENU FLOWCHART AbOVE SP.CNF (Setpoint Configuration) ACt IVE ENAbLE bELOU SP1.CNF (Below) N.CLOSE N.StAtE (Normal State) (Normal Close) N.OPEN (Normal Open) dISAbL AbOVE ACt IVE bELOU SP2.CNF N.CLOSE N.StAtE N.OPEN 74 SP.
Setpoint Configuration Menu 22 22. SETPOINT CONFIGURATION MENU: (SP.CNF) Setpoints 1 through 4 can be configured for a very large variety of zone and level signaling. SP1 and SP2 have balanced configurable hysteresis and are non-latching, suitable for control-level signaling. SP3 and SP4 are often used as Alarm1 and Alarm2, because they have single-sided hysteresis and can be configured for latching action.
22 Setpoint Configuration Menu SP1.CNF Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ 4) Display shows "StOREd" stored message momentarily and then advances to "SP 1.CNF" Setpoint 1 configuration submenu. If necessary, press ‘MENU’ to select the other available following submenu: "SP 2.CNF" Setpoint 2 Configuration and "SP db" Setpoint Deadband Configuration Submenu.
Alarm Configuration Menu Flowchart 23 23 ALARM CONFIGURATION MENU FLOWCHART AbOVE ACtIVE bELOU (Below) UNLtCH dISAbL LAtCH LAtCH AL 1.CNF (Alarm 1 Configuration) N.OPEN AL.CNFG N.StAtE (Alarm Configuration) (Normal State) N.CLOSE PROC. AL.MOdE (Process) HI dEV ENAbLE (High Deviation) LO dEV (Low Deviation) bNd.dEV (Band Deviation) AbOVE ACtIVE bELOU (Below) UNLtCH LAtCH LAtCH AL2.CNF (Alarm 2 Configuration) N.OPEN N.StAtE N.CLOSE PROC. AL.
24 Alarm Configuration Menu 24 ALARM CONFIGURATION MENU: (AL.CNFG) SP3 and SP4 are often used as Alarm1 and Alarm2, because they have single-sided hysteresis and can be configured for latching action. The levels of these Setpoints are entered during run mode via the front-panel pushbuttons (refer to Setpoint Settings Menu Configuration Section 8).
Alarm Configuration Menu 24.1. AL 1.CNF Enter ALARM 1 CONFIGURATION MENU: Press ‘RESET/ENTER’ 4) Display shows "StOREd" stored message momentarily and then advance to "AL 1.CNF" Alarm1 configuration submenu. 24 If necessary, Press ‘MENU’ to enter the other available following submenu: "AL 2.CNF" Alarm2 Configuration, "AL db" Alarm Deadband Configuration, "NUM.dLy" Number of display/reading configuration, "RSt AL" Alarm Reset Submenu. Refer to Steps 19 through 30 for details.
24 Alarm Configuration Menu ACt IVE Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ 5) Display shows "ACt IVE" Alarm Active State submenu. 6) Display flashes "AbOVE" Above Alarm/Setpoint active state option or previous setting. 7) Scroll to select 2 available options for your choice "AbOVE" or "bELOU" (below) Alarm/Setpoint Active State. 8) Display shows "StOREd" stored message momentarily and then advances to "LAtCH" Alarm Latching submenu.
Alarm Configuration Menu 24 There are 4 types of Alarm modes/Deviation Functions which can alter the alarm response as flowing illustrations: All horizontal axes represent time line. “PROC.
24 Alarm Configuration Menu “bNd.dEV” : Band Deviation for both Active Above and Active Below Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 15) Display flashes "PROC." Process (No Deviation) mode or previous selection. 16) Scroll 4 available following options for your choice of Alarm Mode: "PROC."(Process Deviation), "HI dEV"(High Deviation), "LO dEV"(Low Deviation) and "bNd.dEV" (Band Deviation). 24.2. AL 2.
Alarm Configuration Menu 24.3. AL db 24 Enter ALARM DEADBAND MENU: This selected deadband (hysteresis) for Alarm 1 ("SP3") and Alarm 2 ("SP4") is placed on the INACTIVE side of the selected levels. This results in immediate action (if zero (0) delay is selected in "NUM.dLy") When an alarm limit is exceeded, but defers recovery when the input returns to pre-alarm levels. Press ‘MENU’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ & ‘ 䊳/MIN’ Press ‘RESET/ENTER’ 19) Display shows "AL db" Alarm Deadband setup menu.
25 Communication Configuration Flowchart 25 COMMUNICATION CONFIGURATION FLOWCHART bAUd COM.PAR (Communication Parameters) (Baud Rate) 300 600 1200 PARItY NONE Odd EVEN 4800 9600 19200 1bit StOP COMM 2400 (Stop Bit) 2bit (Communication) yES bUS.FMt SUM.CHK (Bus Format) NO (CheckSum) yES LN.FEEd NO (Line Feed) yES ECHO NO RS-232 StNd (Communication Interface Standard) RS-485 COMMNd MOdE (Command) HNd.
Communication Menu Configuration 26 26 COMMUNICATION MENU CONFIGURATION: (COMM) Communication Operation Requirement: Communication Option Board must be installed as either equipped by model or by user-option add-on upgrade. Purchasing the controller with Serial Communications permits an instrument or more meters to be configured or monitored remotely from an IBM PC compatible computer using software available from the website or on the CD-ROM enclosed with your shipment.
26 Communication Menu Configuration 26.1 COM.PAR Enter COMMUNICATION PARAMETERS SUBMENU: Allows the user to adjust and modify Serial Communication Parameters settings of the instrument. When connecting an instrument to a computer or other device, the communication parameters must match with each other. Generally the default settings should be utilized. bAUd Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 4) Display shows " bAUd" Baud Rate setting submenu.
Communication Menu Configuration 26.2 bUS.FMt bUS.FMt (Bus Format) 26 Enter COMMUNICATION BUS FORMAT SUBMENU: yES SUM.CHk (CheckSum) NO yES LN.FEEd (Line Feed) NO yES ECHO NO RS-232 StNd (Communication Interface Standard) RS-485 COMMNd MOdE (Command) CONt IN (Continuous) HNd.SHK (Hand Shake) MESSAG (Message) CHAR (Character) Bus Format determines Communication Standards and Command/Data Formats for transferring information into and out of the controller via the Serial Communication Bus.
26 Communication Menu Configuration SUM.CHK Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 14) Display shows "SUM.CHk" Check Sum setting submenu. If necessary to select the other available following Bus Format Setting submenus: "LN.FEEd", "ECHO", "StNd", "MODE", and "HNd.SHk", use or press the ‘MENU’ button. 15) Display flashes "NO" No (checksum excluded) option as default or previous selection.
Communication Menu Configuration StNd 26 Serial Communication Interface Standard Submenu: The following are the supported Communication Interface Standards: RS-232, RS-485 Half duplex and RS-485 Full duplex. Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 23) Display shows "StOREd" stored message momentarily and then advances to the "StNd" Serial Communication Interface Standard submenu. 24) Display flashes "RS-232" RS-232 Serial Communication Interface Standard as default or previous selection.
26 Communication Menu Configuration MODE Press ‘RESET/ENTER’ 26) Display shows "StOREd" stored message momentarily and then advances to the "MOdE" Data Flow Mode submenu. • Data Flow Mode determines whether the instrument will wait for commands and data requests from Serial Bus- as defined as “COMMNd" Command Mode or will send data automatically and continuously to the Serial Bus-as differently defined as "CONt IN" Continuous Mode.
Communication Menu Configuration 26.3 dAt.FMt 26 Enter COMMUNICATION DATA FORMAT SUBMENU NO dAt.FMt AL.StAt (Data String Format) (Alarm Status Character) (Excluded) yES (Included) NO P.V.Stat (Excluded) (Peak & Valley Status Character) (Included) yES yES SNd.dAt (Current Reading Value Transmitted) (Included) NO (Excluded) NO (Excluded) FL.tRNS (Filtered DataTransmission) yES (Included) NO (Excluded) PK.tRNS (Peak Value Transmission) yES (Included) NO (Excluded) VL.
26 Communication Menu Configuration AL.StAt Press ‘RESET/ENTER’ 33) Display show "AL.StAt" Alarm Status Character setting submenu. If necessary to select the other available following Bus Format submenus: "P.V.StAt", "tyP.dAt", "FL.tRNS", "Pk.tRNS", "VL.tRNS", "SEPARA" and "UNIt", use or press the ‘MENU’ button. • For Universal meters, there is a list of the transmitted character (Hex number value) corresponding for each of the sixteen (16) possible Setpoint/Alarm (SP1, SP2, AL1/SP3 and AL2/SP4) states.
Communication Menu Configuration 26 FL.tRNS Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 42) Display shows "StOREd" stored message momentarily and then advances to the "FL.tRNS” Filtered Data Transmission Switch Submenu that allows user to select whether or not filtered data to be transmitted as part of Data String. 43) Display flashes "NO" No (not transmitted as default) option or previous selection.
26 Communication Menu Configuration SEPARA Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ 51) Display shows "StOREd" stored message momentarily and then advances to the "SEPARA" Separator Selection submenu that determines whether different data types included in Data String and sent from the device will be separated by spaces or by Carriage Returns. 52) Display flashes "SPACE" Space separator as default or previous selection.
Communication Menu Configuration 26 26.5 AddRES Enter ADDRESS SELECTION SUBMENU Press ‘RESET/ENTER’ 60) Display shows "StOREd" stored message momentarily and then advances to the "AddRES” Address selection submenu. • This menu is applicable to the RS-485 Option only to designate different address for each device or controller in the Multi-point Serial Communication network that allows hosting device to recognize and communicate properly as labeling or naming purposes.
27 Display Color Selection Menu Flowchart 27 DISPLAY COLOR SELECTION MENU FLOWCHART: GREEN N.COLOR (Normal Color) REd COLOR AMbER HOLd SP1.CLR (Setpoint 1 Color) GREEN REd AMbER HOLd SP2.CLR (Setpoint 2 Color) GREEN REd AMbER HOLd AL1.CLR (Alarm 1 Color) GREEN REd AMbER HOLd AL2.
Display Color Selection Menu 28 28 DISPLAY COLOR SELECTION MENU: (COLOR) COLOR Enter COLOR SELECTION MENU: Press ‘MENU’ 1) Nine times, if Communication Option Board installed, otherwise just eight times. Display shows "COLOR" Color Selection Menu that allows user to select the color of the LED display for either normal mode or under alarmed condition. 28.1 N.COLOR Enter NORMAL COLOR SUBMENU Press ‘RESET/ENTER’ 2) Display shows "N.
29 Lockout (Access Security) Configuration Menu Flowchart 29 LOCKOUT (ACCESS SECURITY) CONFIGURATION MENU FLOWCHART: LCk.CNF Id 0000 NO (Enter ID code here) >3 times ERROR YES ENTER ID CODE RUN CORRECT? NO YES ENAbLE LOCk SP1 dISAbL ENAbLE SP2 dISAbL ENAbLE CHNG. Id SP3 (Change ID code) dISAbL ENAbLE 0000 SP4 (Enter new ID code) dISAbL ENAbLE INPUt dISAbL ENAbLE RdG.CNF dISAbL ENAbLE INP.CNF dISAbL ENAbLE MP.SC.OF dISAbL ENAbLE OUt.CNF dISAbL ENAbLE SP.CNF ENd dISAbL ENAbLE AL.
Lockout (Access Security) Configuration Menu 30 30 LOCKOUT (ACCESS SECURITY) CONFIGURATION MENU • To prevent unauthorized tampering with the setup parameters, this instrument provides protection by requiring the user to enter the ID (Access Security) Code before allowing access any locked menu item on Main menu. • The locked menu will be skipped and invisible during Menu Navigation, however Display will show the locked setpoint and value but editing mode is disabled (first digit is not flashing).
30 Lockout (Access Security) Configuration Menu LOCk Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘RESET/ENTER’ Press ‘䊱/MAX’ Press ‘RESET/ENTER’ 8) Display shows "StOREd" stored message momentarily and then advances to the "LOCk" Lockout menu. 9) Display shows "SP1" Setpoint 1 submenu. If necessary, use ‘MENU’ button to regain accessibility or lockout the other following menu functions in the Main Menu: "SP2", "SP3", "SP4", "INPUt", "RdG.CNF", "INP.CNF", "MP.SC.OF", "OUt.CNF", "SP.CNF", "AL.
External Control Lines 31 31 EXTERNAL CONTROL LINES P2, the 20-pin connector at the rear of the main board, connects to the setpoint transistor collectors and permits remote control of significant meter features. The meter case label gives the names (abbreviated functions) of each of the twenty pins of P2, the center-bottom connector. Refer to Figure 30-1. P2 P2 TARE(T) VALLEY (V) EXT.
31 External Control Lines 31.3 VALLEY (PIN 3) When this is connected to P2-4 by an external switch, the meter displays the stored valley (“LO RDG”) value rather than the current reading. The display flashes to distinguish this value. 31.4 SWLIN2 (PIN 4) Completes the circuit for any of the above three signals. 31.5 EXTERNAL RESET (PIN 5) Connecting this to ground (P2-7) causes a “HARD” RESET (when you see “RESET2” on the display). 31.6 NO CONNECTION (PIN 6) 31.
External Control Lines 31 31.12 NONSTANDARD RX (PIN 12) AND NONSTANDARD TX (PIN 13) These two pins allow digital communications with the meter using 5 V CMOS logic levels and RS-232 protocols and format. This access is normally reserved for specialized equipment communication in a calibration lab or at the factory. 31.13 NO CONNECTION (PIN 14) 31.
32 Troubleshooting 32. TROUBLESHOOTING - DISPLAY MESSAGES AND TROUBLESHOOTING GUIDE A flashing alpha-numeric message in the display generally indicates an incorrect combination of jumpers and/or configuration values. 32.1 ERROR MODE MESSAGES 32.1.1 Flashing “999999” (Numerical Overflow) The maximum number of counts in the display cannot exceed –99999 or 999999.
Troubleshooting 32 32.1.7 Flashing “-OPEN” (Open Sensor Indication) Coupled with the proper jumper selection, a “-OPEN” indicates the input is below the bottom limit of the range selected. 32.1.8 Flashing “I OVSC” (Input Overscale) This display occurs when the input scale and/or offset applied to the input signal causes the display to go into a numerical overflow. 32.1.
32 Troubleshooting “ERR 02” POSSIBLE CAUSE: Active decimal has been selected and/or DEC PT (decimal point) position has been moved one or more places to the left driving the programmed Setpoint value into numerical overflow. TO CORRECT: Display will flash “ERR 02” message for a short period of time, then automatically correct the setpoint’s decimal point position and move to the next menu item. Press the ‘SETPT’ button until the meter displays flashing “999999”.
Troubleshooting 32 “I OVSC” POSSIBLE CAUSE: The input scale and/or offset values chosen are large enough to drive the display into numerical overflow. TO CORRECT: Reduce the input and/or the input scaling/offset. Refer to “IN.SC.OF” in Section 16.4. “R OVSC” POSSIBLE CAUSE: The reading scale and/or offset values chosen are large enough to drive the display into numerical overflow. TO CORRECT: Reduce the reading scale/offset and/or move the active decimal point to the right.
33 Specifications 33.1 CURRENT INPUT INPUT RANGES (+10%): RESOLUTION: MAXIMUM INPUT: INPUT OHMS: 0-20 mA and 4-20 mA 1µA 200 mA 5 33.2 VOLTAGE INPUT INPUT RANGES: UNIPOLAR: BIPOLAR: RESOLUTION: MAX INPUT: INPUT OHMS: BIAS AMPS: 100 mV ±50 mV 1 µV 70 Vp 1G 50 pA 33.3 POTENTIOMETER INPUT INPUT RANGES: RESOLUTION: 1 V or 10 V programmed to 0.001% 1V ±0.5 V 10 µV 350 Vp 1M 5 pA 10 V ±5 V 100 µV 350 Vp 1M 1 pA 100 V ±50 V 1 mV 300 Vp 1M 1 pA 33.
Specifications 33 33.5 RTD INPUT continued RESOLUTION: CURRENT: EXCITATION: 1, 0.1, 0.01 160 µA, factory calibrated, auto-compensation 1.6 mA, can be field calibrated with EEPROM storage (RTDs or OHMS): LEAD RESISTANCE (for specified accuracy) THERMOCOUPLES: to 100 ohms, total 2-wire 100 ohm RTD: 50 milliohms/lead 3-wire 100 ohm RTD: 5 ohms/lead, balanced 4-wire 100 ohm RTD: 10 ohms total, unbalanced 33.
33 Specifications TURNDOWN RATIO (MAX OFFSET-MIN SPAN): 1000 with 0.1% or 100 with 0.01% resolution NETWORK AND COMMUNICATIONS,OPTIONAL: ETHERNET: Standards Compliance IEEE 802.3 10Base-T SUPPORTED PROTOCOLS: TCP/IP, ARP, HTTPGET, TELNET RS-232 / RS-422 / RS-485 / MODBUS: RS-485 (HALF AND FULL DUPLEX): Selectable from menu; both ASCII and modbus protocol selectable from menu. Programmable 300 to 19.
Specifications 33 1. Test with Analog Out (AN03) Sample Rate 0 1 2 3 4 5 Process (100 mV) Rate (ms) 7(135) 14(68) 27(36) 52(19) 100(10) 142(7) TC (K type) Rate (ms) 7(135) 14(68) 27(36) 41(24) 41(24) 41(24) 2. Test with Communication (Baud Rate at 19200 bps, Continuous Mode) Sample Rate 0 1 2 3 4 5 Process (100mV) Rate (ms) 7(135) 14(68) 27(36) 52(19) 71(14) 71(14) TC (K type) Rate (ms) 7(135) 14(68) 27(36) 33(30) 33(30) 33(30) 3.
33 Specifications PANEL CUTOUT R 0.06 [1.5] 1.772 +0.024/-.000 4PLCS [45.00 +0.61/-0.00] 3.622 +0.032/-.000 [92.00 +0.81/-0.00] PANEL THICKNESS 0.25 [6.4] MAX 0.03 [0.8] MIN 1.89 (48.0) TOP VIEW .70 (17.8) CASE 5.23 (132.8) 5.86 (148.8) MAX SLEEVE PROTECTIVE COVER SIDE VIEW Figure 33-1.
Specifications 33.
33 33.9 Specifications RTD 10 ohm COPPER TABLE Temp ˚C Resistance -200 1.058 -190 1.472 -180 1.884 -170 2.295 -160 2.705 -150 3.113 -140 3.519 -130 3.923 -120 4.327 -110 4.728 -100 5.128 -90 5.526 Temp ˚C Resistance -80 5.923 -70 6.318 -60 6.712 -50 7.104 -40 7.490 -30 7.876 -20 8.263 -10 8.649 0 9.035 10 9.421 20 9.807 30 10.194 Temp ˚C Resistance 40 10.580 50 10.966 60 11.352 70 11.738 80 12.124 90 12.511 100 12.897 110 13.283 120 13.669 130 14.055 140 14.442 150 14.828 Temp ˚C Resistance 160 15.
Specifications 33.11 33 ITS-90 RTD 392 US TABLE Temp ˚C -200 -190 -180 -170 -160 -150 -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 Resistance 17.0787 21.4575 25.8017 30.1135 34.3948 38.6476 42.8737 47.0747 51.2522 55.4078 59.5429 63.6587 67.7565 71.8373 75.9022 79.952 83.9876 88.0096 92.0187 96.0154 100 103.9728 107.9339 111.8833 115.8209 119.7467 123.6609 127.5633 131.4539 135.3329 139.2 143.0555 146.8992 150.
34 Factory Preset Values JUMPER CONFIGURATIONS-S1 = K S2 = A, B S3 = A, C S4 = NONE NOTE: extra jumpers are located in storage positions. INPUT SELECTION : INPUt VOLTAGE: VOLt Voltage type = UNIPOL Range = 100MV If choose bI POL Range = 50MV If choose different INPUt-If tC: Type = J tC If Rtd: Type = 2Pt.392 If CURRNt: Range = 0-20MA READING CONFIG : RdG.CNF Rd.SC.OF = dISAbL If choose ENAbLE = dIRECt UNt.tMP = C dEC.Pt dP.ACtV=yES SEtdP=FFFFFF FILtER CNtby=001 FILt.tP=A.b.C.FIL FILt.tM=016 FLS.dSP SP1.
Factory Preset Values ALARM CONFIGURATION : AL.CNF AL.CNFG = dISAbL If ENAbLE: AL1.CNF ACtIVE = AbOVE LAtCH = UNLtCH N.StAtE = N.OPEN AL.MOdE AL2.CNF: ACtIVE = BELOU LAtCH = UNLtCH N.StAtE = N.OPEN AL.MOdE AL db = 0020 NUM.dLy = 0303 RSt AL = dISAbL COMMUNICATION CONFIG : COMM: COM.PAR BAUd = 9600 PARIty = Odd StOP = 1bIT bUS.FMt SUMCHk = NO LN.FEEd = NO ECHO = yES STNd = RS-232 MOdE = CMMNd HNd.SHk = MESSAG 34 COMM (continued) MOdbUS = NO AddRES = 001 SERCNt = 00001 LED COLOR SELECTION : COLOR N.
35 Record Your Setup Values JUMPER CONFIGURATIONS-S1 = S2 = S3 = S4 = INPUT SELECTION : INPUt If choose VOLt UNIPOL,Range = If choose bI POL, Range = If tC: Type = If Rtd: Type = If CURRNt: Range = READING CONFIG : RdG.CNF Rd.SC.OF = If choose ENAbLE = UNt.tMP = dEC.Pt dP.ACtV= SEtdP= FILtER CNtby= FILt.tP= FILt.tM= FLS.dSP SP1.FLS= SP2.FLS= AL1.FLS= AL2.FLS= bRIGHt= 118 INPUT CONFIGURATION : INP.CNF LIN.FRE= Ad.RAtE= MOdE If Choose tC: tC.CO.JC= C.JUN.OFIf Choose bRIdGE: bRDG.LM= RAtIO= IN.SC.
35 Record Your Setup Values ALARM CONFIGURATION : AL.CNF AL.CNFG = If ENAbLE: AL1.CNF ACtIVE = LAtCH = N.StAtE = AL.MOdE AL2.CNF: ACtIVE = LAtCH = N.StAtE = AL.MOdE AL db = NUM.dLy = RSt AL = COMMUNICATION CONFIG : COMM: COM.PAR BAUd = PARIty = StOP = bUS.FMt SUMCHk = LN.FEEd = ECHO = STNd = MOdE = HNd.SHk = dAt.FMt AL.StAt = P.V.StAt = SNd.dAt = FL.tRNS = Pk.tRNS = VL.tRNS = SEPARA = UNIt = 119 COMM (continued) MOdbUS = AddRES = SERCNt = LED COLOR SELECTION : COLOR N.COLOR= SP1.CLR= SP2.CLR= AL1.
CE APPROVAL INFORMATION 1. Electromagnetic Compatibility (EMC) This device comforms with requirements of EMC Directive 89/336/EEC, amended by 93/68/EEC. This instrument complies with the following EMC Immunity Standards as tested per EN 50082-2, 1995 (Industrial environment) Phenomena Test Specification Basic Standard Electrostatic Discharge +/- 4 kV contact discharge +/- 8 kV air discharge IEC 1000-4-2 Performance Criteria B Radio Frequency electromagnetic field.
Warranty/Disclaimer NEWPORT Electronics, Inc. warrants this unit to be free of defects in materials and workmanship for a period of one (1) year from the date of purchase. In addition to NEWPORT’s standard warranty period, NEWPORT Electronics will extend the warranty period for four (4) additional years if the warranty card enclosed with each instrument is returned to NEWPORT. If the unit should malfunction, it must be returned to the factory for evaluation.
For immediate technical or application assistance please call: ® Newport Electronics, Inc. 2229 South Yale Street • Santa Ana, CA • 92704 • U.S.A. TEL: (714) 540-4914 • FAX: (203) 968-7311 Toll Free: 1-800-639-7678 • www.newportUS.com • e-mail:info@newportUS.com ISO 9001 Certified Newport Technologies, Inc. 976 Bergar • Laval (Quebec) • H7L 5A1 • Canada TEL: (514) 335-3183 • FAX: (514) 856-6886 Toll Free: 1-800-639-7678 • www.newport.ca • e-mail:info@newport.ca Newport Electronics, Ltd.
