YOKOGAWA YS1000 Series User Manual
Indicator with alarm
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- Page 1 User’s Manual YS1310 Indicator with Alarm User’s Manual IM 01B08D02-02EN IM 01B08D02-02EN 4th Edition...
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Page 2: Introduction
Introduction Thank you for purchasing the YS1000 series single-loop controller (hereinafter referred to as “YS1000”). This manual describes how to use YS1310 functions other than communication function. Please read through this user’s manual carefully before using the product. Note that the manuals for the YS1310 comprise the following five documents: ●... -
Page 3: How To Use This Manual
How to Use This Manual Usage First read through the Operation Guide to understand the basic operations and then read this manual. For the communication functions, and replacements, see the respective manuals. This User’s Manual is organized into Chapters 1 to 6 as shown below: Chapter Title and Description Input/output and Auxiliary Function... -
Page 4: Symbols Used In This Manual
Symbols Used in This Manual This symbol is used on the instrument. It indicates the possibility of injury to the user or damage to the instrument, and signifies that the user must refer to the user’s manual for special instructions. The same symbol is used in the user’s manual on pages that the user needs to refer to, together with the term “WARNING”... - Page 5 Blank Page...
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Page 6: Table Of Contents
Contents Introduction ............................i How to Use This Manual ........................ii Symbols Used in This Manual ......................iii Chapter 1 Input/output and Auxiliary Function Function Block Diagram ....................1-1 Compensating or Computing Process Variables .............. 1-2 1.2.1 Input Filter (First-order Lag Operation) ..................1-2 1.2.2 Square Root Extraction (Low Cutoff Adjustable) ..............1-2 Setting Alarm Function ..................... -
Page 7: Chapter 6 Specifications
Chapter 6 Specifications General Specifications ..................... 6-1 Index Revision Information IM 01B08D02-02EN... -
Page 8: Chapter 1 Input/Output And Auxiliary Function
1.2.1 Input Filter (First-order Lag Computation) Square root extraction 1.2.2 Square Root Extraction (Low Cut off Adjustable) Alarm function 1.3 Setting Alarm Function Other Functions Main Functions Reference Destination Display function Chapter 2, Display/Security Functions. Communication function YS1000 Series Communication Interface User's Manual IM 01B08D02-02EN... -
Page 9: Compensating Or Computing Process Variables
Compensating or Computing Process Variables 1.2.1 Input Filter (First-order Lag Operation) Description First-order lag operation is performed on each analog input. This function is used if there are significant variations in the display value such as the presence of noise. The greater the time constant, the stronger the filtering function. -
Page 10: Setting Alarm Function
Setting Alarm Function Description Alarm output function Six alarm outputs are available (if DIO1 is not used). Each of these six output points can be assigned alarm detection (high limit, low limit, high-high limit, and low-low limit). If multiple alarm detections are assigned to one alarm output, AND or OR connection can be set. - Page 11 1.3 Setting Alarm Function Alarm Detecting Function This function can detect the high limit alarm (PH), low limit alarm (PL), high-high limit alarm (HH), and low-low limit alarm (LL) with respect to process variables 1 and 2. Alarm hysteresis can also be set for both process variables 1 and 2. The alarm detecting action is shown in the figure below.
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Page 12: Setting Alarm Output Hysteresis
Setting Alarm Output Hysteresis Description Setting hysteresis (differential gap) to alarm action prevents chattering in digital output. High limit alarm output for PV Open Closed High limit alarm setpoint for PV Alarm hysteresis (HYSn) Alarm hysteresis (HYSn) Low limit alarm setpoint for PV Open Closed Low limit alarm output for PV... -
Page 13: Using Alarm Output 6 As Digital Input (Lcd Backlight Off Input, All Event Off)
Using Alarm Output 6 as Digital Input (LCD Backlight OFF Input, All Event OFF) Description The table below shows the YS1310 digital input/output terminal number and the target parameter. Terminal Number Application Parameter 38 – 39 To be used as DI1 or DO6 DIO16 (DI1/DO6 specification) If any front panel key is pressed once while the LCD backlight is OFF, it will be turned ON again. -
Page 14: Using The Event Function
Using the Event Function 1.6.1 Displaying Messages (Event Display Function (Settable Only in YSS1000)) Description The event display function displays a message (in Japanese, English, or Chinese) on the Operation Display if an event such as an abnormality occurs, providing guidance for the operator. - Page 15 1.6 Using the Event Function Event flag The status register is the flag to indicate an event. An event is displayed if the status register changes from 0 to 1 or from 1 to 0. Process alarm such as a high limit alarm, operation mode, etc. can be registered as a flag.
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Page 16: Changing The Pv Bar Display Color In The Event Of A Process Alarm (Active Display Function)
1.6 Using the Event Function 1.6.2 Changing the PV Bar Display Color in the Event of a Process Alarm (Active Display Function) Description The active color display function changes the colors of the PV bar on the LOOP Display to red to inform the operator of instrument abnormality. Active color display can be set on a loop basis and items can be selected from each loop’s process alarms (see the table below). -
Page 17: Operator Notification Using Tag Number Display (Alternate Tag Number Color Display Function)
1.6 Using the Event Function 1.6.3 Operator Notification Using Tag Number Display (Alternate Tag Number Color Display Function) Description In the event of an ALM lamp lighting, the alternate tag number color display function notifies the operator of instrument abnormality by alternating the color of the tag number background and red. -
Page 18: Chapter 2 Display And Security Functions
Chapter 2 Display and Security Functions Display Function 2.1.1 Setting Visible/Invisible Status of the Operation Display Description There are nine types of Operation Displays. Displays you chose not to display can be made invisible. LOOP1 Display is always displyed even if you set "OFF" for all lines. Operation Display Name YS1310 LOOP1 (LOOP 1 Display) - Page 19 2.1 Display Function LOOP 1 Display LOOP 2 Display METER 1 Display METER 2 Display 0201E.ai 0202E.ai 0203E.ai 0204E.ai TREND 1 Display TREND 2 Display TREND 3 Display Alarm Display 0206E.ai 0207E.ai 0208E.ai 0205E.ai DUAL Display 0209E.ai IM 01B08D02-02EN...
- Page 20 2.1 Display Function Setting Details Parameter Name Setting Range Display Transition and Display Title LOOP1 LOOP 1 Display ON/OFF LOOP2 LOOP 2 Display ON/OFF MTR1 METER 1 Display ON/OFF Tuning Display > MTR2 METER 2 Display ON/OFF OFF: Invisible Engineering Display > TRND1 TREND 1 Display ON/OFF ON: Visible...
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Page 21: Setting Visible/Invisible Status Of Trend Display Data
2.1 Display Function 2.1.2 Setting Visible/Invisible Status of TREND Display Data Description PV trend displayed on TREND 1 and TREND 2 Displays can be set to be visible or invisible. It is possible to select the trends that are to be displayed, making only the data necessary to be monitored visible on the Operation Display. -
Page 22: Changing The Time Span Of Trend Displays
2.1 Display Function 2.1.3 Changing the Time Span of TREND Displays Description The time span of trends displayed on the TREND 1, TREND 2, and TREND 3 Displays can be set. Time span 0216E.ai Setting Details Parameter Name Setting Range Display Transition and Display Title 1M: 1 minute TRDT1... -
Page 23: Setting Display Data On The Trend 3 Display
2.1 Display Function 2.1.4 Setting Display Data on the TREND 3 Display Description Display data shown on the TREND 3 Display can be set arbitrarily. A maximum of four data items can be set. This enables the necessary data to be monitored on the Operation Display. -
Page 24: Changing Scale Divisions On The Loop, Trend, And Dual Displays
2.1 Display Function 2.1.5 Changing Scale Divisions on the LOOP, TREND, and DUAL Displays Description The provision of scale divisions is relevant to the LOOP, TREND, and DUAL Displays. For scale divisions on the METER Displays, see 2.1.6 Automatic Scale Divisions/Making Scale Values More Legible on the METER Displays Scale division The figure on the left... -
Page 25: Automatic Scale Divisions/Making Scale Values More Legible On The Meter Display
2.1 Display Function 2.1.6 Automatic Scale Divisions/Making Scale Values More Legible on the METER Display Description For scales on the METER Displays, scale divisions are automatically provided based on the values set to the scale between 0% and 100% values. The number of scale divisions is from a minimum of 11 divisions to a maximum of 20 divisions. -
Page 26: Selecting The Operation Display To Be Displayed First At Power On
2.1 Display Function 2.1.7 Selecting the Operation Display to be Displayed First at Power ON Description The Operation Display to be displayed first when the power is turned ON can be set. The figure below shows an example of displaying the TREND 1 Display first. TREND 1 Display LOOP 1 Display METER 1 Display... -
Page 27: Turning The Lcd Backlight On/Off
(communication register). Write “0” or “1” to the CFL flag through communication to (0) to turn the backlight ON or to (1) to turn it OFF. ► For backlight OFF function through communication: see YS1000 Series Communication Interface User’s Manual. -
Page 28: Changing The Background And Loop Colors
2.1 Display Function 2.1.9 Changing the Background and Loop Colors Description The background color of the Operation Display, and the color of the PV bars of the LOOP Displays and the DUAL Display can be changed. Setting the Operation Display’s background color to black causes the color of the lettering to be white;... -
Page 29: 2.1.10 Adjusting Lcd Brightness
2.1 Display Function 2.1.10 Adjusting LCD Brightness Description The brightness of the LCD can be adjusted. The adjustment bar display shows brightness adjustment values in bar format to indicate the current value with respect to the settable range. Selected parameter (zoom in) Selected parameter Adjustment bar display Color bar displays... -
Page 30: Security Function
Security Function 2.2.1 Inhibiting/Enabling Parameter Change Description Setpoints for the tuning parameters or engineering parameters can be locked to prevent them from being inadvertently changed. When they are locked, the parameter setting increase key [ ] and decrease key [ ]displays are erased from each setting display. The password for locking them is a 4-digit numeral, which is not set at factory shipment. - Page 31 2.2 Security Function Setting/Entry Display Operation Display > keys (to the Tuning Menu Display) > keys (to the Engineering Menu Display) > [PASSWORD] software key (Password Setting Display) Password setting Password enter/cancellation Password setting Password enter Software key function display Password enter Cursor movement software key Password setting software key...
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Page 32: Chapter 3 Adjusting Direct Inputs (Temperature/Resistance/Frequency)
Chapter 3 Adjusting Direct Inputs (Temperature/Resistance/Frequency) List of Direct Input Specifications and Basic Operations In the SC Setting Display, communication with the direct input cards, optional specifications, is made to set or adjust the input specifications. Examples of sensor type setting, burnout setting, input zero adjustment, and span adjustment procedures are described in sections 3.2 to 3.4. - Page 33 3.1 List of Direct Input Specifications and Basic Operations Note 1: PT=Pt100 (IPTS-68: JIS'89), JPT=JPt100 (JIS'89), PT100-90=Pt100 (ITS-90: JIS'97), PT50=Pt50 (JIS'81) Note 2: Measurable data is within the range stated in the standard specifications. Note 3: Burnout correction is the function of correcting an error caused by the burnout current produced if an external conductor resistance is large.
- Page 34 3.1 List of Direct Input Specifications and Basic Operations (2) Press the [ENT] software key again. This writes the data to the SC card, causing the display to return to normal display. If any key other than the [ENT] software key is pressed, the communication data returns to normal display without being written to the SC.
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Page 35: Setting Sensor Type
Setting Sensor Type Description The sensor type can be set as for thermocouple and RTD cards. Setting Details Operation Display > keys (to the Tuning Menu Display) > keys (to the Engineering Menu Display) > [SC MAINT] software key (Input Specification Setting Display) Engineering Display Setting Procedure... -
Page 36: Setting Burnout
Setting Burnout Description A burnout can be set as for mV input, thermocouple, RTD, and potentiometer input cards. Setting Details Operation Display > keys (to the Tuning Menu Display) > keys (to the Engineering Menu Display) > [SC MAINT] software key (Input Specification Setting Display) Engineering Display Setting Procedure... -
Page 37: Making Zero And Span Adjustments Of Input
Making Zero and Span Adjustments of Input Description Zero and span adjustments of inputs can be set as for mV input, thermocouple, and RTD cards. Setting Details Operation Display > keys (to the Tuning Menu Display) > keys (to the Engineering Menu Display) > [SC MAINT] software key (Input Specification Setting Display) Engineering Display Setting Procedure... -
Page 38: Chapter 4 Processing During Power Failures
Chapter 4 Processing during Power Failures Processing during Power Failures Description YS1310 enters a power failure status if a momentary power interruption of about 20 ms occurs in the case of 100 V AC supply voltage, or if that of 1 ms or more occurs in the case of 24 V DC. - Page 39 4.1 Processing during Power Failures Power Failure Duration and Operation in Each Start Mode Start mode Continuous HOT start HOT start mode COLD Continuous HOT start COLD start mode ▲ ▲ Time 20ms (100V AC) About 2 s 1ms (24V DC) Power failure Momentary power failure Power failure...
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Page 40: Chapter 5 Maintenance
For products with optional code /FM or /CSA: (1) Devices must be maintained by professionally trained personnel or ask YOKOGAWA's sales office or sales representative. (2) In case of option code /FM, install devices according to NEC (National Electrical Code: ANSI/NFPA-70). -
Page 41: Recommended Part Replacement Period
Replacement Period LCD Display Assembly About 8 years WARNING Part replacement should be carried out by a YOKOGAWA engineer or by YOKOGAWA-approved personnel, as safety standard inspection is required. Contact YOKOGAWA's sales office or sales representative when replacing the parts. -
Page 42: Packaging When Shipping The Product For Repair
Packaging when Shipping the Product for Repair Should the instrument break down and need to be shipped to our sales representative for repair, handle it as noted below: WARNING Prior to shipping the instrument, put it into an antistatic bag and repackage it using the original internal packaging materials and packaging container. - Page 43 Blank Page...
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Page 44: General Specifications
Chapter 6 Specifications General Specifications WARNING This instrument is for Measurement Category O (other). Do not use it for measurements in locations falling under Measurement Categories II, III, and IV. Internal Wiring Entrance Cable Outlet Measurement Description Remarks Category For measurements performed on circuits not (other) directly connected to MAINS. -
Page 45: Digital Outputs
6.1 General Specifications Digital outputs Item YS1310 Alarm output 6 points (shared by digital input) Transistor contact Rating 30 V DC, 200 mA or less (resistive load) FAIL output (*1) 1 point Transistor contact Rating 30 V DC, 200 mA or less (resistive load) FAIL contact output enters the OFF status at power OFF or failure. - Page 46 6.1 General Specifications Communication Signal Specifications Programmer Ethernet Item Communication RS-485 Communication Communication (Used for YSS1000) Complies with Electrical Complies with EIA Complies with RS-232C IEEE 802.3 Specifications RS-485 10BASE-T/100BASE-TX Rear panel screw Dedicated front panel terminals Back panel RJ45 Connection connector (Five terminals and the...
- Page 47 6.1 General Specifications Operating Conditions Normal operating conditions, transport and storage conditions Item Normal Operation Transport and Storage Ambient 0 to 50°C −20 to 60°C temperature 5 to 90% RH 5 to 95% RH Ambient humidity (No condensation) (No condensation) 80 to 138 V AC (100 V AC and 24 V AC Power Supply common power supply)
- Page 48 6.1 General Specifications Reference Operating Conditions Ambient temperature: 23°C ±2°C, relative humidity: 50% ±10% RH Note that the power supply voltage is as specified below: 100 V AC and 24 V DC common power supply: 24 V DC or 100 V AC, 50/60 Hz 220 V AC power supply: 135 V DC or 220 V AC, 50/60 Hz Reference Performance Item...
- Page 49 6.1 General Specifications Direct Input Specifications Item mV Input Thermocouple Input Optional code /A01 /A02 JIS, ANSI standards Thermocouple types K, T, J, E, B, R, DC potential difference: −50 to Input signal and S +150 mV IEC and ANSI standards Type N 10 to 63 mV (thermoelectric power Measuring range span...
- Page 50 6.1 General Specifications 2-wire Transmitter Input Item Isolator (Isolated), 2-wire Transmitter Input (Non-isolated) Optional code /A05 /A06, /A07 4 to 20 mA DC signal from 2-wire Input signal 1 to 5 V DC transmitter (Power is supplied to a transmitter.) Input resistance 1 MΩ...
- Page 51 6.1 General Specifications Structure, Mounting (Main Unit of Standard Type) Item Specifications Front panel drip and dust proof structure (compliant with IP54). Structure Not applicable for side-by-side mounting instrumentation, and replacement types. Mounting type Indoor panel mounting Panel mounting device Mounting brackets to be used (at the top and bottom)) Panel cutout ×...
- Page 52 KC marking: Electromagnetic wave interference prevention standard, electromagnetic wave protection standard compliance. The suffix codes -x0x, -x1x, -x2x -x3x, and -x4x for YS1000 series and YSS1000 comply with KC marking. EMC Regulatory Arrangement in Australia and New Zealand...
- Page 53 Hazardous (Classified) Hazardous (Classified) Non-hazardous (Classified) Location Location Location Class I, Division 2, Class I, Division 2, Groups A, B, C, D Groups A, B, C, D YS1000 Series Control Associated Equipment Single-loop Apparatus (Note 1) Controller (Note 3) (Note 4) (Note 5) 0601E.ai...
- Page 54 6.1 General Specifications Notes: Control equipment connected to the YS1000 series single-loop controller must not use or generate more than 250 Vrms or VDC. In case of option code /FM, install devices according to NEC (National Electrical Code: ANSI/ NFPA-70). In case of option code /CSA, all wiring shall comply with Canadian Electrical Code Part I and local electrical codes.
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- Page 56 Index Active Display ............... 1-9 Part Replacement ..............5-2 Alarm Detecting Function ............. 1-4 Parts with finite life spans ............. 5-2 Alarm Function ..............1-3 Password ................2-13 Alarm output function............1-3 Power-on initial display ............2-9 Alternate Tag Number Color Display ........1-10 Repair ...................
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- Page 58 Dec. 2019/4th Edition Page 6-3, Description of maximum number of transactions Page 6-9, Description of the notice of alteration contents (standards related) n Written by Yokogawa Electric Corporation n Published by Yokogawa Electric Corporation 2-9-32 Nakacho, Musashino-shi, Tokyo 180-8750, JAPAN...
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- Page 60 3F Tower D Cartelo Crocodile Building, No.568 West Tianshan Road, Shanghai 200335, CHINA Phone : 86-21-62396262 Fax : 86-21-62387866 YOKOGAWA ELECTRIC KOREA CO., LTD. (Yokogawa B/D, Yangpyeong-dong 4-Ga), 21, Seonyu-ro 45-gil, Yeongdeungpo-gu, Seoul, 07209, KOREA Phone : 82-2-2628-6000 Fax : 82-2-2628-6400 YOKOGAWA ENGINEERING ASIA PTE. LTD.
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