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Shinko HR-706 Instruction Manual

Hybrid recorder, dot printing
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HYBRID RECORDER
HR-706
(DOT PRINTING)
INSTRUCTION MANUAL

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Summary of Contents for Shinko HR-706

  • Page 1 HYBRID RECORDER HR-706 (DOT PRINTING) INSTRUCTION MANUAL...
  • Page 2 For safe use Thank you for purchasing our HR-706 type Hybrid Recorder. In order for this instrument to function effectively and correctly, please read and understand this instruction manual thoroughly before using the instrument. This instrument should be used in accordance with the instructions described in the manual. If it is not used according to the instructions, it may malfunction or its protection function will be compromised.
  • Page 3 • Proper periodic maintenance is required. • This instrument must be used under the conditions and environment described in this manual. Shinko Technos Co., Ltd. does not accept liability for any injury, loss of life or damage occurring due to the instrument being used under conditions not otherwise stated in this manual.
  • Page 4 No.HR7CE data recorder instruction manual communication function. Initial setting checking list After installing and wiring the HR-706, the following items are the minimum required setting items before running. Checking item Default value Reference Range setting 10 mV DC (All channels) pp.45-47...

  • Page 5: Table Of Contents

    CONTENTS 1. INTRODUCTION ............6 7. DEVICE SETTING ............42 1.1 Checking the Accessories............6 7.1 Setting the Setup Mode............42 1.2 Checking the Model Type and Specifications ......7 7.1.1 Setting the Range ............45 1.3 Temporary Storage..............8 (1) Setting Method ..............45 1.4 Location ID tag ................
  • Page 6 8. COMMUNICATION............86 10. TROUBLESHOOTING ..........103 8.1 General Description .............. 86 10.1 Troubleshooting ..............103 8.1.1 General Description of Functions ........86 10.1.1 Problems ..............103 8.1.2 Transmission Specifications..........86 10.1.2 When the Recorder Dose not Work at All....103 8.2 Original Protocol ………………………………………………86 10.1.3 When There is a Large Error........

  • Page 7: Introduction

    1. INTRODUCTION 1.1 Checking the Accessories Upon delivery of this instrument, unpack and check its accessories and appearance. If there are any missing accessories or damage to the appearance of the instrument, please contact our dealer where you purchased the instrument, or our sales representative. The following accessories are included with the recorder.

  • Page 8: Checking The Model Type And Specifications

    1.2 Checking the Model Type and Specifications A nameplate has been secured on the inside of the instrument. Remove the chart holder and make sure that the nameplate is put in the middle far side of the instrument. Make sure that this instrument meets your requested specification, checking the following table. Table 1.2 Model type H R –...

  • Page 9: Temporary Storage

    1.3 Temporary Storage Store the instrument in the following environment. When installed within another machine, ensure that the operating environment conforms to the following conditions. CAUTION Storage in a poor environment may damage the appearance, functions, and service life of the instrument.

  • Page 10: Construction

    2. CONSTRUCTION 2.1 Appearance Door Case Ribbon cassette Display keyboard Location ID card Chart holder Printer Mounting bracket Terminal block Fig. 2.1 Appearance...

  • Page 11: Display And Operation Keys

    2.2 Display and Operation Keys 2.2.1 Display The following describes the display. Since the channel numbers and data are indicated by a 7-segment LED, alphabets are symbolized to represent them. For the LED display, see "Symbolized Alphabets for Display" at [Reference] below. Alarm Type Indicator Indicates an alarm type in red.

  • Page 12: Operation Keys

    2.2.2 Operation Keys The following describes functions of each operation key. The actual operation keys are described as shown below. FEED PRINT MENU Fig. 2.2.2 Operation Keys in This Manual Table 2.2.2 Names of Operation Keys and Their Functions Name Function Starts/stops recording.

  • Page 13: Installation

    3. INSTALLATION 3.1 External Dimensions and Panel Cutout Scale: mm <Front> <Rear> (100) Dimension required when the door is fully open (135 degrees). (56 ) (Wall on left side). <Panel Cutout> <Side> 200 min. 7 max (Pannel thickness) Fig. 3.1 External Dimensions and Panel Cutout CAUTION For the maintenance and safety of the instrument, the space/size indicated in the brackets ( ) is the minimum secure spacing.

  • Page 14: Panel Mounting

    3.2 Panel Mounting WARNING Do not install this instrument in a place exposed to combustible, explosive, or corrosive gas (SO S, etc.). CAUTION Install the instrument only in the following conditions. • A place without rapid humidity change. • A place of normal temperature (around 25 ). •...

  • Page 15: Panel Mounting In Compliance With The Ip65

    Panel Mounting bracket Screw Fig. 3.2.1-2 Panel Mounting 3.2.2 Panel Mounting in Compliance with the IP65 Prior to mounting the instrument to the panel, attach packing to the position shown in the figure. The rest of the procedure is the same. Panel Packing Mounting of Packing...

  • Page 16: Wiring

    4. WIRING 4.1 Terminal Arrangement and Power Wiring 4.1.1 Terminal Arrangement Power source terminal block Alarm output terminal block (Option: LH6) Communication terminal block (RS-485) (Option: C5) DI terminal block Input terminal block (Option: RE6) Communication terminal block (RS-232C) Fig. 4.1.1 Terminal arrangement (Rear view) 4.1.2 Power Wiring WARNING (1) In order to prevent an electric shock, be sure to provide protective grounding prior to...

  • Page 17: Wiring Procedure

    CAUTION (1) As an electric wire for the power source, use a 600 V vinyl insulated wire (IEC60227-3) or its equivalent or above. (2) Attach a ring-type solderless terminal with an insulation sleeve (for M3.5) to the end of the electric wire.

  • Page 18: Input Wiring

    4.2 Input Wiring CAUTION (1) Precautions for the input electric wire • Make sure that noise is eliminated in input wiring. For input wiring, a shielded wire or twisted wire should be used to eliminate noise. • In the case of thermocouple input, connect a thermocouple wire directly or use a compensating lead wire.

  • Page 19: Wiring Procedure

    4.2.1 Wiring Procedure CAUTION To remove the transparent protective cover, release the left and right (both sides) hooks simultaneously. If they are released one after the other, the cover may be damaged. DC voltage Thermocouple Direct current Fig. 4.2.1-1 Input Wiring for Each Channel (1) Put your fingers on the left and right hooks of the transparent protective cover on the input terminal block.
  • Page 20 RTD input mA input Shunt resistor Fig. 4.2.1-3 Input Wiring (RTD, mA inputs) CAUTION (1) Attach a shunt resistor to the input terminal block of the instrument. (2) A shunt resistor affects input accuracy. Use the following resistor. Resistance: 250 Rated power: 1/4 W Tolerance: 0.1% max.

  • Page 21: Di Function/Alarm Output Wiring (Option)

    4.3 DI Function/Alarm Output Wiring (Optional) WARNING (1) Be sure to wire after turning power OFF. (2) When the power source has been connected to the Alarm output, turn off that power source. (3) When a hazardous voltage is supplied to the alarm terminal: a) Never touch terminals.

  • Page 22: Alarm Output Wiring Procedure

    4.3.2 Alarm Output Wiring Procedure Wire the Alarm output (option: LH6), referring to Fig.4.3.2. 1A 1C 2A 2C 3A 3C 4A 4C 5A 6A 6C 6-Relay output Relay No.6 Relay No.1 (Normally open) (Normally open) Fig. 4.3.2 Alarm Output Wiring CAUTION Relay No.1 is a common output for Alarm output and Paper-empty detection sensor (optional) (OR output).

  • Page 23: Communication Wiring

    (200 ) to a host computer side, and attach it to the remotest HR-706 from the host computer. (2) Maximum of 32 units, including a host computer, connectable. (3) Cable length is a maximum of 1.2 km. (4) Use the UL20620-SB (M) cable made by HITACHI CABLE LTD.

  • Page 24: Preparations For Operation

    5. PREPARATIONS FOR OPERATION 5.1 Setting the Chart Paper CAUTION Our original chart paper should be used to ensure proper recording. If the chart holder is taken out and the recording operation is activated, the ink ribbon may be damaged. To replace the chart paper, be sure to press the “REC” key to stop recording. (1) Press the “REC”...
  • Page 25 (3) Pull out the Chart Holder. Put your fingers onto the levers at both sides of the chart holder and pull it out. Lever Pull out the chart holder. Fig. 5.1-3 Pulling out the Chart Holder (4) Open the Chart Cover and Chart Guide. Open the chart guide and the chart cover outward.
  • Page 26 (5) Loosen the chart paper. The chart paper may not be properly fed, if stuck. Be sure to loosen the paper. Fig. 5.1-5 Loosening the Chart Paper (6) Set the Chart Paper into the Storage Chamber. Unfold 2 sections of chart paper. Holding the printing surface upward, set it in the storage chamber.
  • Page 27 (7) Align the Chart Paper with the Sprocket Drum. Align the holes in the chart paper with the sprocket drum teeth. Set the chart paper along with the sprocket drum. Put the first ply of the chart paper into the chart receiver. Ensure that the left and right holes are parallel with each other.
  • Page 28 (9) Turn the Sprocket Drum Gear. Check paper feed using your hand. Turn the sprocket drum gear to feed out the chart paper. (4 sections of chart paper should be fed out.) Turn the gear at the left end of the sprocket drum in the arrow direction.
  • Page 29 (11) Close the Door. Caution Be careful when opening the door more than 90 degrees. Also make sure that the display cable does not get caught. Close the door and check that it is locked. (12) Press the “FEED” key to check Paper Feed. Press the “FEED”...

  • Page 30: Setting The Ribbon Cassette

    5.2 Setting the Ribbon Cassette CAUTION If recording operation is activated while the chart holder is removed, the ink ribbon may be damaged. To replace the ribbon cassette, be sure to press the “REC” key to stop recording. If the ribbon cassette is not set properly, the recording color may change or the ribbon may be damaged.
  • Page 31 (4) Tighten the Ink Ribbon. Set the new ink ribbon. Turn the knob in the arrow direction to tighten the ink ribbon. Turn the knob in the arrow direction. Knob Slack Fig. 5.2-2 Tightening the Ink Ribbon (5) Set the Ribbon Cassette. Push the ribbon cassette into the ribbon holder until the latch clicks.

  • Page 32: Operation

    Operators possessing knowledge of electricity and control related matters should perform the calibration after careful reading of Sections 7.2 and 9.5 of the instruction manual. (Shinko Technos Co., Ltd. is not liable for damages incurred if calibration is performed other than prescribed in the instruction manual.) Once the power is turned on, the display on the front of the door lights.

  • Page 33: Recording

    6.2 Recording CAUTION (1) The instrument checks zero point for every recording. If the printer block is manually moved during recording, the recording position may be dislocated. (2) In order to protect the chart paper, dot printing is not performed when the distance between the previous dot printing position and the current one for an identical channel is less than 0.4 mm in the chart paper feed direction or less than 0.5 mm in the scale direction.

  • Page 34: Printing Sample

    When other printing is active with current job, Alarm printing, Comment printing, Date-and-Time printing and Recording Start/Stop printing will queue. HR-706 can store up to six items of Alarm Occurrence/Recovery printing and up to five items of Comment/Date-and-Time printing. If printing commands exceed those numbers, HR-706 prints “ ” at the end of the last printing.

  • Page 35: Digital Printing

    6.4 Digital Printing Digital printings listed below are performed by key operation. Manual printing List printing Engineering list printing Recording Start/Stop printing Digital printings listed below are performed by DI input. DI Manual printing DI Date/Time printing DI Comment printing [Reference] Printing is activated in the following priority order.

  • Page 36: List Printing

    (2) Manual printing stopping procedure 1) Press the “PRINT” key. 2) Use the “PRINT” key to display “ ” , and press the “ENT” key. 3) Use the “PRINT” key to select “ ” . Pressing the “ENT” key stops manual printing. However, for the line during printing, printing will continue until the line is completely printed.
  • Page 37 (2) List printing stopping procedure 1) Press the “PRINT” key. 2) Use the “PRINT” key to display “ ”, and press the “ENT” key. 3) Use the “PRINT” key to select “ ” . Pressing the “ENT” key stops list printing. However, printing continues until the line is completely printed.

  • Page 38: Engineering List Printing

    6.4.3 Engineering List Printing Engineering list printing provides the following setting data of the instrument on the chart paper. Analog recording Digital printing Burnout/RJC, etc. (1) Engineering list printing operating procedure 1) Press the “MENU” key. 2) Use the “PRINT” key to display “ ”, and press the “ENT”...
  • Page 39 (2) Engineering list printing stopping procedure 1) Press the “MENU” key. 2) Use the “PRINT” key to display “ ”, and press the “ENT” key. 3) Use the “PRINT” key to select “ ”. Pressing the “ENT” key stops engineering list printing. However, the printing continues until the line is completely printed.

  • Page 40: Recording Start/Stop Printing

    6.4.4 Recording Start/Stop Printing Recording Start and Stop times are printed on the chart paper when recording starts and stops. Recording Start/Stop printing can be set in Engineering Mode. Refer to Section 7.2.6 (6) Recording Start/Stop printing. Recording Start synchronous printing Recording Stop printing is asynchronous.

  • Page 41: Di Comment Printing (Di Option)

    6.4.7 DI Comment Printing (DI option) DI Comment printing starts by turning the DI input from OFF to ON. Comment printing can be performed on the chart paper. (1) Select Comment Printing of DI function in Engineering mode. For detailed setting method, refer to 7.2.9 DI Functions. [CMNT1], [CMNT2], [CMNT3]: Synchronous comment printing [ACMT1], [ACMT2], [ACMT3]: Asynchronous comment printing (2) Turn the DI input ON.

  • Page 42: Changing The Display

    6.5 Changing the Display Display selection procedure (1) Press the “MENU” key to display " ", then press the “ENT” key. (2) Use the “PRINT” key to select a required screen from the menu below. Then press the “ENT” key. (3) "...

  • Page 43: Device Setting

    Operators possessing knowledge of electricity and control related matters should perform the calibration after careful reading of Sections 7.2 and 9.5 of the instruction manual. (Shinko Technos Co., Ltd. is not liable for damages incurred if calibration is performed other than prescribed in the instruction manual.) Key Operation for Entering Setup Mode Press the “MENU”...
  • Page 44 7.1.3 Setting the Unit Setting Channel Char. No. Code No. 7.1.4 Setting the Chart Feed Speed Setting 1st/2nd Chart speed Chart speed 7.1.5 Setting the Date and Time Setting Year Month, Day Time 7.1.6 Copying the Setting Data Channel to copy to Channel to copy from Setting 7.1.7 Setting Other Functions (Printing Cycle, Zone Recording, Partial Compression/Expansion,...
  • Page 45 Table 7.1 Default value of the setup mode Setting items Default value Remarks 10 mV Range (all channels) Scaling 0 to 100.0 ( ) All levels alarm OFF, relay Alarm (all channels) Engineering unit (all channels) (BF 43 00) 1st speed: 20 mm/h Chart feed speed 2nd speed: 20 mm/h The present time has...

  • Page 46: Setting The Range

    7.1.1 Setting the Range (1) Setting method With a multirange system, setting the range for each channel is possible. Use the key to shift the mode shown in the Table below. Set the range from the following input signals. (Modes DC voltage: 10 mV DC, 0 to 20 mV DC, 0 to 50 mV DC, 200 mV DC,...

  • Page 47: (Resistance Temperature Detector)

    (Current/Voltage), (Thermocouple), (Resistance Temperature Detector) [Note] : When changing a decimal point position, change it during (3) Scaling (pp. 48, 49). Measures Current, Voltage, Thermocouple and RTD. Example: When setting Thermocouple T for Channel 1 (T: -100 to 300 ) Display Operation keys Description...
  • Page 48 [Note] , or mode, press the “ENT” key to select the range. Use the key to select a range type. Mode Range 「」 “ENT” key 10 mV 0 to 20 mV 0 to 50 mV 200 mV 0 to 5 V 10 V 4 to 20 mA Au-Fe...

  • Page 49: (Scaling)

    (Scaling) Converts the input of VOLT, TC and RTD to a corresponding value. Setting the unit is possible. (See 7.1.3 on page 58) Example: When setting the voltage of 0 to 40 mV and scale of 000.00 to 100.00 for Channel 1. Display Operation keys Description...
  • Page 50 Use the key to select a numeral. FEED PRINT Use the key to shift a digit. (Zero-side scale value) ( 1) Press the key again in the lowest digit (at right) FEED PRINT to flash a decimal point. Use the key to select a (Decimal point) decimal point position.

  • Page 51: (Square Root)

    (Square Root) Caluclates the square root of Volt input, and scales the value. The unit can be set. (See 7.1.3 on page 58.) Example: Setting the voltage of 0 to 40 mV and scale of 000.00 to 100.00 for Channel 1. Display Operation keys Description...
  • Page 52 About Square Root Computation The square root computation is as follows: Each item is defined as follows: SPAN : Span lower-limit value (Span L) SPAN : Span upper-limit value (Span R) SCAL : Scaling lower-limit value (Scale L) SCAL : Scaling upper-limit value (Scale R) : Input voltage : Output (Scaling value) When an input value is 1% or more (1 to 100%)

  • Page 53: (Decade)

    (Decade) Scaling the VOLT input and displays the index number. Setting the unit is possible. (See 7.1.3 on page 58) Example: When setting the voltage of 0 to 5 V and decade of 1.0 x 10 to 1.0 x 10 for Channel 1.
  • Page 54 About Decade Display Each item is defined as follows: SPAN : Span lower limit value (Span L) SPAN : Span upper limit value (Span R) SCAL : Scaling lower limit value (Scale L) XXEYY SCAL : Scaling upper limit value (Scale R) XX: Mantissa section (1.0 to 9.9) : Input voltage YY: Exponent section (-19 to 19)

  • Page 55: (Difference), (Sum)

    (Difference), (Sum), (Average) Caluclates the input of VOLT, TC, RTD or SCALE, and outputs it. Example: Subtracting Ch1 input data from Ch6 input data to set the difference value to Ch6. (0 to 40 mV) “Ch6 (input) - Ch1 (input)” is recorded and displayed on Ch6. Display Operation keys Description...

  • Page 56: (Skip)

    (Skip) Set SKIP to the channel for which display and recording are not required. Example: When skipping Channel 6. Display Operation keys Description Press the “MENU” key for 3 seconds or longer to enter 3 sec MENU setup mode. Use the key to display "...

  • Page 57: Setting The Alarm

    7.1.2 Setting the Alarm Setting items The following 2 alarm types can be set to each channel. Up to 4 alarm points (4 levels) can be set per channel. Once alarm point is set, the “ALM” lights when PV (process variable) reaches alarm point, and simultaneously, the alarm is printed on the chart paper, indicating an alarm occurrence.
  • Page 58 Setting hereinafter is valid only for the model to which an alarm output (option: LH6) has been ordered. If the option has not been ordered, press the “ENT” key until " " is displayed. Then, press the “ENT” key again. Setting is completed. Display Operation keys Description...

  • Page 59: Setting The Unit

    7.1.3 Setting the Unit Setting Items Sets the temperature unit for each channel. [Note] To change the unit in the range of , set the range to Operation Setting Channel Char. No. Code No. Example: Setting the unit ( ) for Channel 1. Display Operation keys Description...

  • Page 60: Character Code Table

    (1) Character code table Π π α ρ " Σ β σ Γ γ τ δ υ Φ ε φ & ζ χ Ψ η ψ Θ θ ω ι κ Λ λ < | μ – ν > ^  ̄...

  • Page 61: Setting The Chart Feed Speed

    7.1.4 Setting the Chart Feed Speed Setting Items Sets the chart feed speed. Select it from the table below. Table 7.1.4 Chart Speed (Unit: mm/h) 1200 1500 Operation Setting 1st/2nd Chart feed speed Chart feed speed Example: When setting the 1st chart feed speed to 1500 mm/h. Display Operation keys Description...

  • Page 62: Setting The Date And Time

    [Note] Printing type Chart speed (mm/h) Alarm occurrence printing, Alarm recovery printing, Affix Restriction of printing printing, DI Comment printing (Synchronous), DI Date 1 to 100 (mm/h) by chart feed speed: and Time printing (Synchronous), DI Manual printing (Synchronous), Recording start printing (Synchronous) Logging printing (Synchronous) 10 to 100 (mm/h) When the chart speed is 0 mm/h, it is printed with forcible chart feed.

  • Page 63: Copying The Setting Data

    7.1.6 Copying the Setting Data Setting Items The following describes how to copy the setting data of any channel to another channel. The number of the channel to be copied must be bigger than the channel to copy from. Operation Channel to copy from Channel to copy to Setting...

  • Page 64: Setting Other Functions

    7.1.7 Setting Other Functions Other functions can be set as follows. Setting Items (Printing cycle) Selects a printing cycle from 10, 20, 30, and 60 seconds. (Zone recording) The data for each channel can be recorded separately in another area so as not to overlap. (Partial compression/expansion) Records the measured data of the channel, partially compressed or expanded.

  • Page 65: (Printing Cycle)

    (Printing Cycle) Example: Setting the printing cycle to 60 seconds. Display Operation keys Description Press the “MENU” key for 3 seconds or longer to enter 3 sec MENU setup mode. Use the key to display " ", and PRINT press the “ENT” key. Use the key to display "...

  • Page 66: (Partial Compression/Expansion)

    (Partial Compression/Expansion) Example: Setting Channel 1 scale of 0 to 1000.0 to 500.0 at a boundary point of 30%. 1000.0 500.0 (100%) (0%) (30%) Display Operation keys Description 3 sec Press the “MENU” key for 3 seconds or longer to enter MENU setup mode.

  • Page 67: (Digital Printing)

    (Digital Printing) Example: Setting logging channel data printing to "ON" (printing enabled) for all channels. Display Operation keys Description Press the “MENU” key for 3 seconds or longer to enter 3 sec MENU setup mode. Use the key to display " ", and PRINT press the “ENT”...

  • Page 68: (Tag)

    (Tag) Example: Setting "ABCD" for Channel 1. Display Operation keys Description 3 sec Press the “MENU” key for 3 seconds or longer to enter MENU setup mode. Use the key to display " ", and PRINT press the “ENT” key. Use the key to display "...

  • Page 69: (Comments)

    (Comments) Example: Setting "ON" for Comment 1 ( Display Operation keys Description Press the “MENU” key for 3 seconds or longer to enter 3 sec MENU setup mode. Use the key to display " ", and PRINT press the “ENT” key. Use the key to display "...

  • Page 70: Setting Engineering Mode

    Operators possessing knowledge of electricity and control related matters should perform the calibration after careful reading the Sections 7.2 and 9.5 of the instruction manual. (Shinko Technos Co., Ltd. is not liable for any damages incurred if calibration is performed other than described in the instruction manual.) Key Operation to Enter Engineering Mode Press the “MENU”...
  • Page 71 • 7.2.5 Changing the Printing Color Setting Channel COLOR Purple Green Blue Brown Black • 7.2.6 Settings Related to Recording Setting Function Recording start/stop INT/EXT selection Channel/tag printing selection Alarm printing ON/OFF Logging printing ON/OFF Scale printing ON/OFF Recording Start/Stop printing (OFF/Synchronous/Asynchronous) •...
  • Page 72 • 7.2.11 Point Calibration Setting Function Zero point calibration Span point calibration Hysteresis at left/right move (Factory adjustment item) Ribbon select calibration (Factory adjustment item) • 7.2.12 Data Calibration Setting Function Voltage calibration RTD (Resistance temperature detector) calibration Internal reference junction compensation calibration •...

  • Page 73: Alarm Hysteresis

    7.2.1 Alarm Hysteresis 0.5 % hysteresis can be set as a value upon alarm activation and alarm recovery. (Common to all alarms) Example: Turning alarm hysteresis OFF. Display Operation keys Description Enter engineering mode (See the key operation on page 67).

  • Page 74: Reference Junction Compensation

    7.2.4 Reference Junction Compensation The following describes how to compensate an electromotive force generated between a thermocouple wire or compensation lead wire and a terminal. There are 3 compensating methods as follows: • A method of compensation using the built-in temperature sensing element (INT: Internal compensation) •...

  • Page 75: Changing The Printing Color

    7.2.5 Changing the Printing Color Set a printing color for each channel. Example: Setting black as a printing color. Display Operation keys Description Enter engineering mode (See the key operation on page 69). Use the key to display " ", and press PRINT the “ENT”...

  • Page 76: Channel/Tag Printing Selection

    (2) Channel/Tag printing Selection In the case of logging printing or manual printing, this sets either a tag printing or a channel printing. Example: Setting the tag printing. Display Operation keys Description Enter engineering mode (See the key operation on page 69).

  • Page 77: Logging Printing On/Off

    (4) Logging Printing ON/OFF Sets the logging printing ON/OFF. In the case of logging printing ON, this sets the printing start time, printing interval and Synchronous/Asynchronous. Setting ON/OFF Printing Start time Interval Sync/ASync Example: When setting the logging printing Synchronous (synchronizing with the analog recording) to start at 18:00 every day.

  • Page 78: Scale Printing On/Off

    (5) Scale Printing ON/OFF Set scale printing to ON/OFF. Example: Setting the Scale printing to OFF. Display Operation keys Description Enter engineering mode (See the key operation on page 69). Use the key to display " ", and press the PRINT “ENT”...

  • Page 79: Setting The Communication Function

    Printing sample: May.10.06 20:00End Recording Stop printing (e.g.) 2006.5.10 20:00 May.10.06 19:00Start Recording Start printing (e.g.) 2006.5.10 19:00 7.2.7 Setting the Communication Function Sets Protocol, Local Address, Communication Speed, Data Length, Parity Bit, and Stop Bit. Example: Original Protocol, Local Address: 02, Communication Speed: 1200 bps, Data Length: 7 bits, Parity Bit: Even, Stop Bit: 2 bits.

  • Page 80: Di Functions

    7.2.9 DI Functions Allocates functions to 3 DI terminals. There are 12 DI functions as follows. No function Manual printing (Sync.) (Positive edge: Printing starts) Manual printing (Async.) (Positive edge: Printing starts) RUN/STOP trigger (ON: RUN, OFF: STOP) Date/Time printing (Sync.) (Positive edge: Printing starts) Date/Time printing (Async.) (Positive edge: Printing starts)
  • Page 81 (6) Chart feed speed selection (SPEED) Chart feed speed can be operated in 2 stages by DI terminals. Refer to Section “7.1.4 Setting the Chart feed speed”. The 1st chart feed speed can be selected by closing the DI terminals and the COM terminal (ON).

  • Page 82: Temperature Unit Selection

    7.2.10 Temperature Unit Selection Sets the temperature unit. Example: Setting the temperature unit to Fahrenheit ( ). Display Operation keys Description Enter engineering mode (See the key operation on page 69). Use the key to indicate " ", and press PRINT the “ENT”...
  • Page 83 Example: Calibrating the span point. Display Operation keys Description Enter engineering mode (See the key operation on page 69). Use the key to display " ", and press PRINT the ”ENT” key. Use the key to select " ", and press the PRINT “ENT”...

  • Page 84: Data Calibration

    7.2.12 Data Calibration Calibrates the voltage, RTD(resistance temperature detector), and reference junction compensation. : Calibration of voltage : Calibration of RTD (resistance temperature detector) : Calibration of RJC (reference junction compensation) [Note] This recorder is carefully calibrated, however, if an indicated value is not normal, check the settings again.
  • Page 85 Example: When calibrating the RTD at Channel 2 Display Operation keys Description Enter engineering mode (See the key operation on page 69). Use the key to display " ", and press PRINT the “ENT” key. Use the key to select " ", and press the “ENT”...

  • Page 86: Terminating The Engineering Mode

    Example: Setting the terminal temperature for Channel 1. Display Operation keys Description Enter engineering mode (See the key operation on page 69). Use the key to display " ", and press PRINT the “ENT” key. Use the key to select " ", and press the “ENT”...

  • Page 87: Communication

    8. COMMUNICATION 8.1 General Description 8.1.1 General Description of Functions This Recorder has the following communication functions: (1) Process variable output Process variable, alarm status, etc. (2) Setting value output Reading the setup data such as a range and chart feed speed. (3) Setting value input Writing the setup data such as a range and chart feed speed.

  • Page 88: Opening/Closing The Link

    8.2.2 Opening/Closing the Link To communicate with the recorder, a connection between the host computer and the recorder must be established. In the case of one-to-N communications, it is necessary to inform each recorder to which recorder the text is being sent. If a link open command is sent to multiple recorders through their sending function, all recorders which have received the command will send data.

  • Page 89: Outputting The Process Variable

    8.2.3 Outputting the Process Variable 1) Specifying the Process Variable Output TS0(CR)(LF) Once this command is received, the recorder transfers the process variable to the transmission buffer when the (ESC) T command is received. 2) Updating the Data (ESC)T(CR)(LF) Once this command is received, the recorder transfers the updated process variable to the transmission buffer.

  • Page 90: Process Variable Transmission Format (Ascii)

    5) Process Variable Transmission Format (ASCII) DATE (YY) (MM) (DD) (CR) (LF) Date Year Month Day TIME (HH) (MM) (SS) (CR) (LF) Time Hour Minute Second (DS1) (DS2) (ALM1) (ALM2) (ALM3) (ALM4) (UNIT 1 to 6) (CHNo.), (DATA) (CR) (LF) (1) DS1: Data information 1 (1 byte) N: Normal D: Difference computation data...

  • Page 91: Process Variable Transmission Format (Binary)

    6) Process Variable Transmission Format (BINARY) Output bytes Date and time Process variable 1 Process variable 6 Output bytes (2 bytes): 5 x n (specified number of channels)+6 (1) Date and time (6 bytes): Year: 00H to 63H (00H for the year 2000) Month: 01H to 0CH Day: 01H to 1FH...

  • Page 92: Outputting The Unit And Decimal Point Position Data

    8.2.4 Outputting the Unit and Decimal Point Position Data 1) Specifying the Unit and Decimal Point Position Data Output TS2(CR) (LF) Once this command is received, the recorder transfers the unit and decimal point position data to the transmission buffer, when the (ESC) T command is received. 2) Updating the Data (ESC)T (CR) (LF) Once this command is received, the recorder transfers the updated unit and decimal point...

  • Page 93: Outputting The Status

    8.2.5 Outputting the Status If the open-link recorder has a data error on its link, it will save the error as a communication error in the internal status area. The (ESC S) command reads this status. Issuing the command clears an on-going error. 1) Status Output Command S(CR) (LF) Upon receiving this command, outputs will be the status of commands received so far.

  • Page 94: Data Reception Example

    8.2.6 Data Reception Example Host Computer Recorder Open Command Send the command to the Opens the Link. recorder from which data transmission starts. Process Variable Output Designation Prepares for the Command (TS0) Process Variable Output. Send once to the recorder. Then, it is not necessary Process Variable Output to send it any more.

  • Page 95: Modbus Rtu Protocol

    8.3 Modbus RTU Protocol The Modbus protocol is a communication protocol developed for PLCs by Modicon Inc. (AEG Schneider Automation International S.A.S). It is described in the protocol specification (PI-MBUS-300 Rev. J). Refer to this document for information on the Modbus protocol specification. 8.3.1 Data Construction Slave address Function code...

  • Page 96: Reading From The Input Register Area

    8.3.4 Reading from the Input Register Area The input register area is a read-only area. The current measured value and the current time are mapped. Specify the start address (relative) and data count (assuming that one word is two bytes) of the data to be read. Function code: 04H Example of master transmission (with a start address of 0032H and a data count of 2 words) Data...
  • Page 97 [Input Register Area Map] Function code: 04H Relative Arrange- Address address Name Description Remarks ment (HEX) Multipoint type:"MULTI" 30001 0 Model type (1/8) ASCII Pen type:"PEN" 30002 1 Model type (2/8) 30003 2 Model type (3/8) After the blank 30004 3 Model type (4/8) 30005 4 Model type (5/8)
  • Page 98 Relative Arrange- Address address Name Description Remarks ment (HEX) 30050 31 Reserve 30051 32 Year 0 to 99 Every second update 30052 33 Month 1 to 12 30053 34 Day 1 to 31 30054 35 Hour 0 to 24 30055 36 Minute 0 to 59 30056...

  • Page 99: Reading From Or Writing To The Holding Register Area

    Relative Arrange Address Name Description Remarks address ment (HEX) Current unit 30131 82 Unit (1/4) 30132 83 Unit (2/4) CH01 30133 84 Unit (3/4) 30134 85 Unit (4/4) Current unit 30135 86 Unit (1/4) 30136 87 Unit (2/4) CH02 30137 88 Unit (3/4) 30138 89 Unit (4/4)

  • Page 100: Maintenance

    9. MAINTENANCE Check the following items in order to use this instrument effectively.  Inspection  Cleaning  Replacing Consumables  Adjusting Dot Printing Position  Calibration 9.1 Inspection Inspect the condition of operation periodically for effective use. When any defect is found, see Chapter “10. Troubleshooting”. Check whether trend recording is out of range.

  • Page 101: Replacing Consumables

    9.3 Replacing Consumables Replace consumables according to the following list. Name Type Period Remarks Quantity When chart feed speed is Chart paper H-10100 33 days 20 mm/h When chart feed speed is Ribbon cassette WPSR188A000001A 3 months 20 mm/h [Note] (1) Over time, ribbon colors will begin to fade.

  • Page 102: Calibration Of Voltage

    Conduct calibration in the case of voltage, current or thermocouple input. For thermocouple input, calibrate reference junction compensation together. Wiring Digital Voltmeter Precision HR-706 Recorder Voltage (Current) Input Terminals Generator Calibrate the voltage according to the instructions in Section “7.2.12 Data Calibration”...

  • Page 103: Calibration Of Reference Junction Compensation

    Calibrate the reference junction compensation in the case of thermocouple input. Wiring Thermocouple wires or Compensation lead wires Digital Be sure to attach terminal covers. Voltmeter Precision HR-706 Recorder Voltage(Current) Generator Input Terminals Copper wires Freezing Point Cold Junction Compensator...

  • Page 104: Troubleshooting

    10. TROUBLESHOOTING 10.1 Troubleshooting 10.1.1 Problems Problem Solution Does not work at all. Flowchart 1 (p. 103) Large error Flowchart 2 (p. 104) Recording Flowchart 3 (p. 104) Trend recording is out of range. error Flowchart 4 (p. 105) Nothing is printed at all. Flowchart 5 (p.

  • Page 105: When There Is A Large Error

    10.1.3 When there is a Large Error Flowchart 2 Large error (Dot printing error) Display or printed value matches dot printing value? Calibrate again. Calibration See 9.5 on p.100 correct? Zero/span position Calibrate again. chart paper (See 7.2.11 on correct? pages 81-82.) Scaling setting Set it properly.

  • Page 106: When Nothing Is Recorded

    10.1.5 When Nothing is Recorded Flowchart 4 No printing at all Error message See 10.2 on Page 107. displayed? Press the REC key to light REC indicator the REC indicator. is lit? (See 2.2.2 on Page 11) Digital printing enabled? (See 6.4 on Page 34 to 38) Ribbon cassette Set it properly.

  • Page 107: When The Chart Paper Is Not Fed At All

    10.1.7 When the Chart Paper is not Fed at All Flowchart 6 No chart paper is fed. Chart paper fed by the FEED key? Alter chart paper feed start/stop setting. DI contact (RUN/STOP trigger) Close (ON) the DI contact. OFF? (See section 7.2.9 on p.79) Chart holder set Contact our dealer where you...

  • Page 108: Self-Diagnosis Function (Error)

    10.2 Self-Diagnosis Function (ERROR) This instrument always performs self-diagnosis on the items listed in Table 10.2.1 below. When an error is found after self-diagnosis, a relevant error number is displayed. 10.2.1 Self-Diagnosis Items Table 10.2.1 List of Self-Diagnosis Items Error Type Part Diagnosis...

  • Page 109: Error Display

    10.2.2 Error Display  When multiple errors occur, their serial error numbers are automatically displayed.  When an error is recovered, the error display can be canceled by pressing the “REC” key. CAUTION While an error is indicated, Auto, Manual and Data/Time are not indicated.

  • Page 110: Specifications

    11. SPECIFICATIONS 11.1 Common Specifications 11.1.1 Input Signal DC voltage: 10 mV DC, 0 to 20 mV DC, 0 to 50 mV DC, 200 mV DC, 1 V DC, 0 to 5 V DC, 10 V DC Thermocouple: B, R, S, K, E, J, T, C, Au-Fe, N, PR40-20, PL- , U, L RTD: Pt100, JPt100 Direct current: 4 to 20 mA DC (External shunt resistor: 250...

  • Page 111: Structure

    11.1.3 Structure Mounting: Panel mounting (vertical panel) Allowable backward inclination: Within 30 Material (Color): Case: Polycarbonate (Black), Glass 10% UL94-V0 Door: Polycarbonate UL94-V2 (Transparent) Dust-proof, drip-proof (IEC60529-IP65) 11.1.4 Power Source Rated supply voltage range: 100 to 240 V AC Working supply voltage range: 85 to 264 V AC Rated power frequency: 50/60 Hz Working frequency range:...

  • Page 112: Alarm Output (Optional: Lh6)

    11.1.6 Alarm Output (Option: LH6) Number of output: 6 points (Built-in option, normally open) Alarm type: 2 types (H, L), total 4 levels/channel Contact point capacity: 250 V AC, 3 A max. (Resistive load) 30 V DC, 3 A max. (Resistive load) 125 V DC, 0.5 A max.

  • Page 113: Standard Specifications

    11.2 Standard Specifications 11.2.1 Measurement Range An arbitrary setup is possible by the front keypad. Digital indication accuracy rating is described in Table11.2.1 below under the Reference operating conditions. Reference operating conditions: Ambient temperature: 23 2 Ambient humidity: 55 10 %RH Power supply voltage: 85 to 264 V AC Power-supply frequency: 50/60 Hz 1%...
  • Page 114 Measurement Recording Indication (Digital) Type Range Measurement range (Analog) Max. Accuracy Accuracy resolution (0.15% of rdg + 0.8 ) 0.0 to 1200.0 However, 0 to 100 100 to 300 , (0.15% of rdg + 1.44 ) 32.0 to 2192.0 However, 32 to 212 , 212 to 572 , (0.15% of rdg + 1 ) 0.0 to 1760.0...
  • Page 115 Measurement Recording Indication (Digital) Type Range Measurement range (Analog) Max. Accuracy Accuracy resolution (0.15% of rdg + 0.5 ) -200.0 to 400.0 However, -200 to -100 , (0.15% of rdg + 0.7 ) (0.15% of rdg + 0.9 ) -328.0 to 752.0 However, -328 to -148 , (0.15% of rdg + 1.3 ) (0.15% of rdg + 0.4 )

  • Page 116: Accuracy At The Computation

    11.2.2 Accuracy at the Computation (1) Scaling The accuracy rating at the scaling is shown as the following formula. Scaling accuracy (digits) = (Range accuracy rating (digits) x Scaling factor + 2 digits) Scaling span (digits) But, Scaling factor = Measurement range span (digits) (Example 1) When VOLT range is –1.000 to 1.000 V and Scaling range is 0.00 to 100.00.

  • Page 117: Decade

    For input 4 to 20 mA, the square root computation accuracy is as the following formula. 5(0.2+0.125) Measuring 100% = 0.16% rdg 5(0.1+0.167) Measuring 50% = 0.19% rdg 7.07 5(0.018+1.39) Measuring 9% = 2.3% rdg Measuring 1% = 5(0.002 +12.5) = 62.5% rdg If the process variable is low, as above, its accuracy rating is not valid.

  • Page 118: Standard Functions

    11.2.4 Standard Functions Table 11.2.4 Standard Functions Item Description Analog indication None Analog recording Analog recording with 6-color dot. Engineering unit indication None Indicates Channel No., Process variable, Chart feed speed, Alarm setting Digital indication value on the display. Prints Date, Time, Scaling, Chart feed speed, Process variable and Logging printing Engineering unit at a programmed interval.

  • Page 119: Standard Setting Functions

    11.3 Standard Setting Functions 11.3.1 Standard Setting Functions Table 11.3.1 Standard Setting Functions Function Description When input is burnt out, indication is deflected to the span side. Burnout can Burnout be specified for every channel. (DC voltage of 50 mV max, TC input ) Sets a tag number by up to 7 figures per channel.
  • Page 120 SHINKO TECHNOS CO., LTD. OVERSEAS DIVISION Head Office: 2-5-1, Senbahigashi, Minoo, Osaka, Japan http://www.shinko-technos.co.jp URL: Tel: +81-72-727-6100 E-mail: overseas@shinko-technos.co.jp Fax: +81-72-727-7006 No.HR71E11 2016.02...

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