Page 1
LR8410-20
Instruction Manual
WIRELESS LOGGING STATION
Be sure to read this manual before using the instrument
When using the instrument for the
rst time
Names and Functions of Parts,
Screen Congurations
Basic Operation
Measurement Preparations
June 2019 Revised edition 6
LR8410B980-06 19-06H
Troubleshooting
p.26
p.35
p.41
Visit us at www.TestEquipmentDepot.com
Troubleshooting
5 Commonwealth Ave
Woburn, MA 01801
Phone 781-665-1400
Toll
Free 1-800-517-8431
p.4
p.301
Page 2
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Contents
Introduction ..............................................................................1
Confirming Package Contents................................................2
Safety Information....................................................................4
Operating Precautions.............................................................7
Chapter 1
Overview ____________________________________21
1.1 Product Overview and Features .............................21
1.2 Measurement Flow .............. .. ..................................22
1.3 Names and Functions of Parts, Screen
Configurations ............................. ............................ 26
Wireless Logging Station .................................................26
UNIT .................................................................................29
Measurement Units ..........................................................30
Wireless logger ................................................................31
Types of wireless logger ..................................................31
LR8512 Wireless Pulse Logger ........................................31
LR8513 Wireless Clamp Logger ......................................31
LR8514 Wireless Humidity Logger ...................................32
LR8515 Wireless Voltage/Temp Logger ..........................32
LR8520 Wireless Fungal Logger ......................................32
1.4 Basic Operation .......................................................35
Screen Operations
(changing settings, scrolling waveforms,
and displaying values).......................................................35
Starting and Stopping Measurement ................................36
Disabling Key Operations (Key-Lock Function) ...............38
Performing Zero Adjustment ............................................38
Saving Data ......................................................................39
Confirming Inputs (Monitor) ..............................................40
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2
Chapter 2
Measurement Preparations_________________41
2.1 Using the Battery Pack (Option) ............................41
Install the Battery Pack ....................................................41
Charge the Battery Pack ..................................................42
LR8410B980-06
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Contents
2.2 Connecting the AC Adapter ...................... ............. 44
2.3 Making Connections ............................................... 46
Pre-Connection Inspection ...............................................46
Voltage and Thermocouple Temperature Measurement .47
Temperature Measurement with
a Resistance Temperature Detector (RTD) .....................49
Humidity Measurement ....................................................50
Resistance Measurement ................................................51
Connecting Alarm Outputs ...............................................52
External Control (using TRIG OUT and EXT TRIG) ........53
2.4 Turning the Power On and Off ............................... 54
2.5 Register measurement units and
wireless logger with the instrument ...................... 55
Registering Measurement Units and Wireless Logger .....56
Deleting Registered Units ................................................58
2.6 Inserting a SD Memory Card or USB Flash Drive
(when saving data) ................................................. 60
SD Card Insertion & Removal ..........................................61
USB flash drive Insertion & Removal ...............................61
Formatting a SD memory card/USB flash drive ...............62
2.7 Compensating for Input Circuit Offset
(Zero Adjustment)....................................... ... .......... 63
Chapter 3
Settings_____________________________________ 67
3.1 Setting Flow Overview ........................................... 67
3.2 Configuring Measurement Settings ...................... 68
Time Setting by Key Operations ......................................68
3.3 Input Channel Settings ............ ............................... 72
Key Setting Procedure .....................................................73
Voltage Measurement Settings ........................................75
Temperature Measurement Settings
(using thermocouples) ......................................................76
Temperature Measurement Settings (for RTDs) .............78
Temperature Measurement Settings
(When LR8514 or LR8520 is used) ..................................79
Humidity Measurement Settings (When LR8511 is used) 80
Humidity Measurement Settings
(When LR8514 or LR8520 is used) ..................................80
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Resistance Measurement Settings ..................................81
Integration (Count) Measurement Settings ......................82
Revolution Measurement Settings ...................................84
Logic Measurement Settings ............................................86
Current Measurement Settings ........................................87
Fungal Index and Fungal Growth Projection Settings ......89
3.4 Alarm Settings .........................................................90
3.5 Data Saving Settings ...............................................90
3.6 Waveform Display Settings (as needed) ...............91
Key Setting Procedure .....................................................91
Selecting Waveform Display Color ...................................91
Specifying Vertical Display Range by Magnification and
Zero Position (vertical axis expansion/compression) .......92
Specifying the Vertical Display Range by Upper and
Lower Limits (expansion/compression) ............................93
Setting the Display Time Base
(horizontal axis magnification) ..........................................94
3.7 Scaling Settings (as needed) ..................................95
3.8 Entering Titles and Comments (as needed) ..........98
3.9 Suppressing Noise (Enable Digital Filtering) ......100
3.10 Viewing and Editing with
the All-Channel Settings List ................................101
Batch Copying Channel Settings ...................................102
Batch Setting Waveform Display/Hide and
Waveform Color Settings for All Channels .....................104
Initializing Settings (to factory defaults) ..........................105
Aligning Zero Positions on the Grid ................................106
Setting CH1 of UNIT1 Value as a Scaling Value
(Inter-Channel Compensation function) .........................107
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3
4
Chapter 4
Observing Measurements and Data ______ 111
4.1 Confirming Measured Values,
and Starting Measurement ....................................111
If the power goes out during measurement ....................111
If communications fail temporarily ..................................111
Handling of waveform display and data when
data cannot be acquired..................................................112
Synchronization and acquired data discrepancies .........112
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Contents
4.2 Observing Waveforms .......................................... 113
Displaying Waveforms (Display Descriptions) ...............113
Displaying Gauges .........................................................114
Viewing Input Signals as Numerical Values ...................115
Scrolling Waveforms ......................................................116
Verifying Waveform Display Position .............................116
Magnifying and Compressing Horizontally .....................117
Viewing Any Waveform Location (Jump Function) ........117
Specifying a Waveform Time Span ................................118
Displaying Cursor Values ...............................................119
4.3 Marking Waveforms and Searching Marks
(Search Function) ...... .. .................................. ... .. ... 121
Inserting Event Marks While Viewing Waveforms .........121
Inserting Event Marks Using External Input Signals ......122
Alarm Event Marks .........................................................123
How are event marks handled in
text (CSV) conversion?...................................................124
Searching Event Marks ..................................................125
Chapter 5
Specifying Criteria for Measurements ____127
About Triggering ............................................................127
5.1 Triggering Measurement Start and Stop ............ 129
Types of Trigger Criteria ................................................129
Enable the Trigger Function ...........................................130
Key Setting Procedure ...................................................130
Setting Trigger Criteria ...................................................131
Selecting Triggering Criteria (Trigger Source) ...............135
Using External Triggering ..............................................136
When You Want to Measure Data before Triggering
(Pre-trigger).....................................................................137
Applying Trigger at Fixed Time Interval
(Interval Trigger) .............................................................138
5.2 Trigger Setting Examples .................................... 139
5.3 Confirming All Trigger and
Alarm Criteria Settings.......................................... 140
5.4 Starting & Stopping Measurement on
a Specified Day ...................................................... 141
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5.5 Starting & Stopping Measurement
Periodically .............................................................143
5.6 Canceling a Schedule ................................ ... .. ......145
5.7 About Schedule Function Operation ...................147
5.8 Setting Examples ......................... .. ... .....................150
5.9 Alarm Output ..........................................................151
Checking Alarm Criteria .................................................152
Alarm Settings ................................................................155
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Contents
Chapter 6
Saving & Loading Data ___________________ 159
6.1 About Saving and Loading Data ..........................159
What happens to data in a power outage? ....................161
Preparation for power outages during
long-term measurements................................................161
6.2 Saving Data .................................. .. ........................162
Automatic Saving
(Waveform Data and Numerical Calculation Results) ....163
Replacing Removable Storage During
Real-Time Saving ...........................................................166
Saving Manually (Waveform Data, Settings,
Screen Images, Numerical Calculation Results).............167
To Save a Setting Configuration ....................................170
6.3 Loading Data on the instrument ..........................171
Loading a Setting Configuration .....................................171
Reverting to previous settings .............................. ..........173
Loading Waveform Data and Screen Images ................174
6.4 Data Management ..................................................176
Switching removable storage .........................................176
Viewing Folder Contents and the Parent Folder ............176
Deleting Data .................................................................177
Renaming Files and Folders ..........................................178
Copying Data .................................................................179
Sorting Files ...................................................................180
6.5 Transferring Data to a PC (USB Drive Mode) ......181
Select the USB Drive Mode ...........................................181
Connecting the USB Cable ............................................182
4
5
6
8
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Contents
Chapter 7
Numerical Calculations/
Waveform Calculations____________________183
7.1 Calculate Average, Maximum, Minimum,
and Etc.................................................................... 183
Key Setting Procedure ...................................................186
Real-Time Calculation While Measuring
(Auto Calculation) ...........................................................186
Calculation after Measuring (Manual Calculation) .........188
Apply Calculations to a Specific Time Span
(Manual Calculation Only) 189
7.2 Numerical Value Calculation Expressions ......... 190
7.3 Waveform Calculations ........................................ 191
Key Setting Procedure ...................................................191
Calculating Power (When Using the LR8513) ...............193
Chapter 8
System Environment Settings_____________195
Key Setting Procedure ...................................................196
8.1 Operation Settings ........................................... .. ... 196
Using the Auto-Resume Function
(Resume After Power Restoration) ................................196
File Protection Level Setting ..........................................197
8.2 Screen Key Operation Settings ........................... 197
Enabling and Disabling the Backlight Saver ..................197
Adjust Backlight Brightness ...........................................198
Selecting Black or White Screen Background ...............198
Enabling or Disabling the Beeper ..................................198
Selecting the Horizontal (Time) Axis Display .................199
Selecting the Display Language ....................................199
Display of Start/Stop Confirmation Messages ...............199
8.3 CSV File Saving Settings ..................................... 200
CSV File Data Decimal and Separator Characters ........200
Select the sort order for numerical calculation results ...200
Setting How to Handle Date Data Stored in CSV Files ..201
8.4 External Trigger Input Settings ........................... 201
Selecting the External Trigger Function .........................201
Set Alarm Event Marking ...............................................201
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8.5 Making System Settings ............... ........................202
Setting the Date and Time .............................................202
Initializing the instrument (System Reset) ......................203
Self-Test ......................................................................... 20 4
Chapter 9
External Control __________________________ 205
9.1 External Trigger Input ........... ... ... ..........................205
9.2 External Signal Output (Trigger Output) .............206
9.3 Alarm Signal Output (Alarm Output) ...................207
9.4 Synchronous Measurements with
Multiple instruments ..............................................209
Chapter 10
Connection to a PC (Communication) ____ 211
Communication Features ...............................................211
10.1 USB Settings and Connections ............................212
1.Configuring the instrument ..........................................212
2. Installing the USB Driver ............................................213
3. Connecting the instrument to a PC ............................216
Features Available After USB Setting and Connection ..218
4. Installing the Logger Utility Program ..........................219
Uninstalling the Logger Utility .........................................222
10.2 LAN Settings and Connections
(Before connecting to the network). .. ... ... .............224
Things to Check Before Making Settings .......................224
1. PC Network Setup ......................................................226
2.Instrument Settings .....................................................227
3. Connecting the instrument to a PC ............................231
Features Available After LAN Setting and Connection ..232
When LAN Communication Fails ...................................233
10.3 Using the Logger Utility .......................................234
Starting and Ending Logger Utility ..................................235
10.4 Remote Measurement with
the HTTP Server Function ....................................236
Displaying the Main Page ..............................................236
Remote Operating ..........................................................238
Start/Stop Measurement ................................................239
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8
9
10
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Viewing Current Measurement Values ..........................239
Acquiring Data from Internal Memory ............................240
Setting Comments .........................................................241
10.5 Transferring Data to a PC with
the FTP Server Function ....................................... 242
Restricting FTP Server Connections
(FTP Authentication).......................................................245
10.6 Auto Sending Data using
the FTP Client Function ........................................ 246
Setting Up an FTP Server on a PC ................................247
Instrument Auto-Send Settings ......................................259
Testing File Transfer ......................................................261
Checking LAN Communication Status ...........................262
10.7 Sending E-Mail ............................ .. ........................ 263
Instrument E-Mail Settings .............................................264
Testing E-Mailing ...........................................................267
Checking Mail Communication Status ...........................268
E-Mail Sending Authentication .......................................269
10.8 About Communications Commands ................... 270
Configuring Communications Command Operation ......270
Chapter 11
Using Other Hioki Products
(LR8410 Link)______________________________271
11.1 Register Link Product on Instrument ................. 271
11.2 Configure Settings ................................................ 272
11.3 Carry Out Measurement ....................................... 274
11.4 Measurement data ................................................ 274
Measurement value errors .............................................274
Measurement values ........................... ........ ......... ........ ..274
Chapter 12
Specifications _____________________________275
12.1 LR8410-20 Wireless Logging Station
Specifications ........................................................ 275
12.2 LR8510 Wireless Voltage/Temp Unit
Specifications ........................................................ 286
12.3 LR8511 Wireless Universal Unit Specifications . 292
Page 11
Chapter 13
Maintenance and Service_________________ 299
13.1 Inspection, Repair, and Cleaning .........................299
13.2 Troubleshooting ....................................................301
13.3 Disposing of the instrument .................................303
Removing the Lithium Battery ........................................303
Appendix ___________________________________ A1
Appendix 1 Scan Timing .....................................................A1
Appendix 2 Error Messages and Remedial Actions......... A3
Appendix 3 File Naming ......................................................A9
Appendix 4 Text File Internal Format............................... A10
Appendix 5 Binary File Size Calculation..........................A11
Appendix 6 List of Default Settings ................................. A12
Appendix 7 Maximum Recordable Time..........................A14
Appendix 8 Concerning Noise Countermeasures..........A15
Appendix 9 Frequently Asked Questions........................A21
Questions about measurement units
(Wireless Voltage/Temp Unit and
Wireless Universal Unit) ................................................. A21
Questions about the Wireless Logging Station .............. A23
Appendix 10Introduction to Measurement ApplicationsA29
Connecting a 4 to 20 mA Output Device and
Recording Average Values Every Minute ....................... A29
Appendix 11Input Circuit Diagram...................................A32
Appendix 12Instrument/Unit Communications
Interruptions and Reestablishment............. A33
ix
Contents
10
Index __________________________________ Index 1
11
12
Appendix
Index
Page 12
x
Contents
Page 13
1
Introduction
Introduction
Thank you for purchasing the HIOKI Model LR8410-20 Wireless Logging Station.To
obtain maximum performance from the instrument and measurement units, please
read this manual first, and keep it handy for future reference.
This document uses the following device names:
Product Name in this document
LR8410-20 Wireless Logging Station The instrument
LR8510 Wireless Voltage/Temp Unit
LR8511 Wire less Universal Unit
LR8512 Wireless Pulse Logger
LR8513 Wireless Clamp Logger
LR8514 Wireless Humidity Logger
LR8515 Wireless Voltage/Temp Logger
LR8520 Wireless Fungal Logger
Measurement unit
Wireless logger
The following documents are provided with t
appropriate for your application.
his instrument. Refer to them as
Document Description
Measurement
1
Guide
Instruction Manual
2
(This document)
Read first.
Offers an introduction to the instrument’s basic measuring method for
first time users.
Contains explanation and instructions regarding the instrument's operating method and functions.
Trademarks
• Microsoft and Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and other countries.
• Bluetooth® is a registered trademark of Bluetooth SIG, Inc.(USA).
The trademark is used by HIOKI E.E. CORPORATION under license.
• The SD logo is a trademark of SD-3C, LLC.
• Sun, Sun Microsystems, Java, and any logos con
registered trademarks of Oracle Corporation in the United States and other countries.
taining Sun or Java are trademarks or
Page 14
2
Confirm that these contents are provided.
LR8410-20 Wireless Logging Station
........................................................... 1
Z1008 AC Adapter............................ 1
Logger Utility(Data acquisition appli-
cation program CD)......................... 1
(p. 44)
The latest version can be downloaded from our web site.
Instruction manual...........................1
Measurement guide..........................1
Precautions Concerning Use of
Equipment That Emits Radio Waves..1
USB Cable.........................................1
Z4001 SD Memory Card (2 GB) .......1
(p. 182)
Confirming Package Contents
Confirming Package Contents
When you receive the instrument, inspect it carefully to ensure that no damage
occurred during shipping. In particular, check the accessories, panel switches, and
connectors. If damage is evident, or if it fails to operate according to the specifications, contact your authorized Hioki
distributor or reseller.
Page 15
Confirming Package Contents
Instruction manual
LR8410-20
Measurement units
(Up to 4)
Accessories, etc.
Options
The following options are available for the instrument. Contact your authorized
Hioki distributor or reseller when ordering.
The options are subject to change. Visit our website for updated information.
LR8510 Wireless Voltage/Temp Unit Z1007 Battery Pack
LR8511 Wireless Universal Unit Z1008 AC Adapter
LR8512 Wireless Pulse Logger C1007 Carrying Case
LR8513 Wireless Clamp Logger Z1009 Fixed Stand
LR8514 Wireless Humidity Logger 9642 LAN Cable
LR8515 Wireless Voltage/Temp Logger Z4001 SD Memory Card (2 GB)
LR8520 Wireless Fungal Logger Z4003 SD Memory Card (8 GB)
P9000-01 Differential Probe
P9000-02 Differential Probe
Storing the instrument and measurement units in the C1007 Carrying Case
Store the instrument and measurement units in the C1007 Carrying Case as shown below.
3
Page 16
4
Safety Information
Safety Information
This instrument and measurement units are designed to comply with IEC 61010 Safety
Standards, and has been thoroughly tested for safety prior to shipment. However, mishandling during use could result in injury or dea
measurement units. Using the instrument and measurement units in a way not described
in this manual may negate the provided safety fe atures.
Be certain that you understand the instruct
use. We disclaim any responsibility for accidents or injuries not resulting directly from
instrument and measurement units defects.
Please carefully review all safety infor mation about the w ireless logger i n the
Measurement Guide.
Mishandling during use could result in injury or death, as well as damage to the instrument. Be certain that you understand the instructions
and precautions in the manual before use.
With regard to the electricity supply, there are risks of electric shock,
heat generation, fire, and arc discharge due to short circuits. If persons
unfamiliar with electricity measuring instruments are to use the instrument, another person familiar with such i
operations.
Safety Symbols
th, as well as damage to the instrument and
ions and precautions in the manual before
nstruments must supervise
In the manual, the symbol indicates particularly important information that the user
should read before using the instrument.
The symbol printed on the instrument indicates
sponding topic in the manual (marked with the symbol) before using the relevant
function.
Indicates a high voltage hazard.
If a particular safety check i
give rise to a hazardous situation; the operator may receive an el ectric shock, may get
burnt or may even be fatally injured.
Indicates a double-insulated device.
Indicates a grounding terminal.
Indicates DC (Direct Current).
s not performed or the instrument is mishandled, this may
that the user should refer to a corre-
The following symbols in this manual indicate the relative importance of cautions and
warnings.
Indicates that incorrect operatio
serious injury or death to the user.
Indicates that incorrect operation presents a sign
in serious injury or death to the user.
Indicates that incorrect operatio
damage to the instrument and measurement units.
Indicates advisory items related to perfo
ment and measurement units.
n presents an extreme hazard that could result in
ificant hazard that could result
n presents a possibility of injury to the user or
rmance or correct operation of the instru-
Page 17
Symbols for Various Standards
Li-ion
Indicates that the product conforms to regulations set out by the EU Directive.
FCC ID
Indicates the ID number of the wireless mo
munications Commission (FCC).
IC Indicates the number of the wireless mod
5
Safety Information
dule certified by the U.S. Federal Com-
ule certified by Industry Canada.
This is a recycle mark established under the Resource Recycling
(only for Japan).
Indicates the Waste Electrical and Electronic Equipment Directive (WEEE Directive)
in EU member states.
Promotion Law
Other Symbols
Indicates the prohibited action.
(p. )
[ ]
SET
(Bold
charac-
ters)
• Unless otherwise specified, “Windows” represents Windows XP, Windows Vista, Windows 7,
Win
• Dialog box represents a Windows dialog box.
• Click: Press and quickly release the lef
• Double click: Quickly click the left button of the mouse twice.
Indicates the location of reference information.
Indicates that descriptive information is provided below.
*
The names of setting objects and buttons on the screen are indicated by squ are
brackets [ ].
Bold characters within the text indicate operating key labels.
dows 8, and Windows 10.
t button of the mouse.
Accuracy
We define measurement tolerances in terms of f.s. (full scale), rdg. (reading) and dgt.
(digit) values, with the following meanings:
f.s.
ximum display value or
(ma
scale length)
rdg.
(reading or displayed value)
dgt.
(resolution)
The maximum displayable value or scale length. This is usually the
name of the currently selected range. Example: For the 1 V range,
f.s. = 1 V
The value currently being measured and indicated on the measuring instrument.
The smallest displayable unit on a digital measuring instrument,
i.e., the input value that causes the digital display to show a "1" as
the least-significant digit.
Page 18
6
Safety Information
Measurement categories
To ensure safe operation of measurement instruments, IEC 61010 establishes safety
standards for various electrical environments, categorized as CAT II to CAT IV, and called
measurement categories.
• Using a measuring HiLogger in an environment designated with a
higher-numbered category than that for which the HiLogger is rated
could result in a severe accident, and must be carefully avoided.
• Never use a measuring HiLogger that lacks category labeling in a
CAT II to CAT IV measurement environment. Doing so could result
in a serious accident.
Hioki LR8510 Wireless Voltage/Temp Unit and LR8511 Wireless Universal Unit complies
with CAT II (300 VAC, DC) safety requirements.
CAT II:
CAT III:
CAT IV:
When directly measuring the electrical outlet receptacles of the primary electri cal
circuits in equipment connected to an AC electrical outlet by a power cord
(portable tools, household appliances, etc.).
When measuring the primary electrical circuits of heavy equipment (fixed
installations) connected directly to the distribution panel, and feed ers from the
distribution panel to outlets.
When measuring the circuit from the service drop to the service entrance, and to
the power meter and primary overcurrent protection device (distribution panel).
Page 19
7
Operating Precautions
Operating Precautions
Follow these precautions to ensure safe operation and to obtain the full benefits of
the various functions.
Please carefully review all safety information about the wireless logger in
the Measurement Guide.
Bluetooth
The Wireless Voltage/Temp Unit, Wireless Universal Unit, and Wireless Logging Station
use
product, but the following precautions should be observed:
®
the 2.4 GHz frequency band. No radio station license is required in order to use the
• Do not use with systems required to exhibit a high level of safety or reliability.
• Do not use in proximity to pacemakers or other medical devices.
• Do not attempt to modify or disassemble.
• When used in proximity to other devices that use the same frequency
band, for example wireless networking devices, transmission and reception of data may become unstable, or the product may be affected by the
other
devices.
• The line-of-sight communications range between the Wireless Logging
Station and the Wireless Voltage/Temp Unit and Wireless Universal Unit
is 30 m. Obstructions (such as walls or metal shielding) may cause communications to become unreliable and/or reduce the communications
rang
e. In addition, radio wave intensities, which are indicated with the
antenna-like indicators, vary depending on units even while these units
are operating in the same environment.
• Although communications between the Wireless Voltage/Temp Unit and
Wireless Universa
using SSP, this does not guarantee the integrity or secrecy of transmitted
data. Hioki is not liable for the electronic interception or unautho rized disclosure by other means of measured values sent via wireless communications.
• The Wireless Voltage/Temp Unit, Wireless Universal Unit, and Wireless
Loggin
g Station emit radio waves. Use of radio waves is subject to
licensing requirements that are specific to the country of use, and use of
these products in areas other than the countries listed in the provided
“Precautions Concerning Use of Equipment That Emits Radio Waves”
may constitute a violation of applicable law, resulting in fines or other
penalties.
l Unit and the Wireless Logging Station are encrypted
To facilitate stable transmission and reception of data, the product should
be positioned away from the floor, for example on a stand, rather than
close to the floor.
Page 20
8
Operating Precautions
Before Use
• Before using the instrument the first time, verify that it operates normally to ensure that no
damage occurred during storage or shipping. If you find any damage, contact your autho rized Hioki distributor or reseller.
• Before using the instrument, make sure that the insulation on the cables is undamaged and
that no bare conductors are impro perly exposed. Using t he inst rumen t in such condi tions
could cause an electric shock, so contact your authorized Hioki distributor or reseller for
replacements.
Installation
LR8410-20 Wireless Logging Station
Operating temperature and humidity:
Temperature:-10°C to 50°C, Humidity:30 to 80%RH(non-condensating)
(Charging temperature range: 5°C to 35°C)
LR8510 Wireless Voltage/Temp Unit, LR8511 Wireless Universal Unit
Operating temperature and humidity:
Temperature: -20°C to 60°C
Humidity: -20°C to 40°C, 80%RH or less(non-condensating)
(Charging temperature range: 5°C to 35°C)
Temperature and humidity range for guaranteed accuracy:
Temperature:23±5°C, Humidity 80%RH or less(non-condensating)
40°C to 45°C, 60%RH or less(non-condensating)
45°C to 50°C, 50%RH or less(non-condensating)
50°C to 60°C, 30%RH or less(non-condensating)
• Avoid temperature changes around the terminal block. Especially avoid
directed airflow such as from an electric fan or air conditioner vent.Ther
mocouple inputs are prone to measurement errors.
• When the instrument is moved to a location with significantly different
amb
ient temperature, allow at least 60 minutes for thermal equalization
before measuring.
-
Avoid the following locations that could cause an accident or
d
amage to the instrument and measurement units.
Exposed to direct sunlight
Exposed to high temperature
Exposed to water, oil, other
hemicals, or solvents
c
Exposed to high humidity
densation
or con
Exposed to high levels of
rticulate dust
pa
In the presence of corrosive or explosive gases
Exposed to strong electromagnetic fields
Near electromagnetic radiators
Subject to vibration
Near induction heating
ystems
s
(e.g., high-frequency induction heating systems
d IH cooking utensils)
an
Page 21
Handling the Instrument
To avoid electric shock, do not remove the instrument's case. The
internal components of the instrument carry high voltages and may
become very hot during operation.
Tou ching any of the high-voltage points inside the instrument is very
dangerous.
Do not attempt to modify, disassemble or
fire, electric shock and injury could result.
To avoid damage to the instrument, protect it from physical shock when
transporting and handling. Be especially careful to avoid physical shock
from dropping.
This instrument and measurement units may cause interference if used in
residential areas.Such use must be avoided unless the user takes special
measures to reduce electromagnetic emissions to prevent interference to
the reception of radio and television broadcasts.
Handling the Cords and Cables
• Avoid stepping on or pinching cables, which could damage the cable
insulation.
• To avoid breaking the cables, do not bend or pull them.
• To avoid damaging the power cord, grasp the plug, not the cord, when
ging it from the power outlet.
unplug
9
Operating Precautions
repair the instrument; as
Before Turning Power On
Before turning the instrument on, make sure the supply voltage
matches that indicated on the AC adapter. Connection to an im proper
supply voltage may damage the instrument or AC adapter and present an electrical hazard.
When the power is turned off, do not apply voltage or current to the measurement units. Doing so may damage the measurement units.
• After use, always turn OFF the power.
• Brief power interruptions of 40 ms or less will not cause this instrument
and measurement units to malfunction. However, Longer interruptions
may cause the instrument to shut itself off, so consider local power conditions before installing, as appropriate.
• To ensure that recording is not interrupted by power outages, you can
e Z1008 AC Adapter and Z1007 Battery Pack together.
use th
Page 22
10
Operating Precautions
Using the Battery Pack
If handled or used improperly, the battery pack may leak, become e xcessively hot, ca tch on
fire, crack, or suffer other damage. Please observe the following precautions.
• Use the Z1007 Battery Pack with the instrument and measurement
units. Use of other battery packs may damage the device or cause
an accident. Hioki is not liable for such damage.
See: "2.1 Using the Battery Pack (Option)" (p. 41)
• Do not attempt to disassemble or modify the battery pack. The battery pack incorporates safety mechanisms and protective devices
to prevent dangerous operation. If these are damaged, the battery
pack may leak, become excessively hot, generate smoke, crack, or
catch on fire.
• Do not connect the battery pack’s positive and negative terminals
with wire or other metallic objects. Do not carry or store the battery
pack together with metal necklaces, hairpins, or other metal
objects. Doing so may short the battery pack, causing an excessively large current to flow; the battery to leak, become excessively
hot, generate smoke, crack, or catch on fire; or the wire, necklace,
hairpin, or other metal object to become excessively hot.
• Do not submerge the battery pack in water or heat it. Doing so may
melt the insulation, damage the gas release valve or other safety
devices, cause the electrolyte to ignite, or cause the battery to leak,
become excessively hot, generate smoke, crack, or catch on fire.
• Do not use or leave the battery pack near a flame or heater or in any
other hot location (80°C or hotter). If the resin separator becomes
damaged by heat, the battery may experience an internal short,
causing it to leak, become excessively hot, generate smoke, crack,
or catch on fire.
• Do not place the battery pack in, or expose it to, water, seawater, or
any other liquid. Damage to safety devices in the battery pack may
allow the battery to charge at an abnormal current or voltage, causing an abnormal chemical reaction inside the battery pack and
causing it to leak, become excessively hot, generate smoke, crack,
or catch on fire.
• Do not pierce the battery pack with wire, strike it with a hammer, or
step on it. Doing so may damage or deform the battery pack so that
internal components are shorted, causing it to leak, become excessively hot, generate smoke, crack, or catch on fire.
Page 23
11
Operating Precautions
• Do not subject the battery pack to strong mechanical shock or
throw it. Doing so may cause it to leak, become excessively hot,
generate smoke, crack, or catch on fire. Damage to safety devices
in the battery pack may allow the battery to charge at an abnormal
current or voltage, causing an abnormal chemical reaction inside
the battery pack and causing it to leak, become excessively hot,
generate smoke, crack, or catch on fire.
• Do not use battery packs that have suffered external damage or
become deformed in shape due to having been dropped or for other
reasons. Doing so may cause the battery pack to leak, become
excessively hot, generate smoke, crack, or catch on fire.
• Do not solder directly to the battery pack. The resulting heat may
melt the insulation, damage the gas release valve or other safety
devices, cause the electrolyte to ignite, or cause the battery to leak,
become excessively hot, generate smoke, crack, or catch on fire.
• Using this battery pack in devices other than those designated by
Hioki may degrade its performance or service life, and some
devices may trigger an abnormal current flow or damage the battery pack, causing it to leak, become excessively hot, generate
smoke, crack, or catch on fire.
• If you get fluid that has leaked from the battery pack in your eyes,
avoid rubbing them and immediately flush with a large volume of
tap water or other clean water. Seek immediate medical attention.
Failure to do so may cause permanent vision damage.
• If the battery pack fails to charge fully even though the normal
charge time has elapsed, unplug the AC adapter from the instrument or measurement unit to stop charging. Failure to do so may
cause the battery pack to leak, become excessively hot, generate
smoke, crack, or catch on fire.
• Do not place the battery pack on top of
inside a microwave oven or pressure cooker. Doing so may heat the
battery pack rapidly or break its airtight seal, causing it to leak,
become excessively hot, generate smoke, crack, or catch on fire.
• If the battery pack starts to leak or emit an unusual odor, move it
away from fire immediately. Failure to do so may ignite the leaked
electrolyte and cause the battery pack to generate smoke, crack, or
catch on fire.
• If you notice the battery pack emitting an unusual odor, changing
color, becoming deformed in shape, or otherwise exhibiting a different appearance than usual while it is being used, charged, or
stored, immediately halt use and contact your authorized Hioki distributor or reseller. Continued use may cause the battery pack to
leak, become excessively hot, generate smoke, crack, or catch on
fire.
an electromagnetic range or
Page 24
12
Operating Precautions
• Do not use or leave the battery pack in a hot location, for example in a
place that is exposed to strong, direct sunlight or inside a closed vehicle
on a hot summer day. Doing so may cause it to leak, become excessively hot, or generate smoke. It may also degrade the battery pack’s
p
erformance or service life.
• If the battery leaks onto your skin or clothing, immediately rinse with a
large volume of tap water or other clean water. Failure to do so may
result in a skin rash.
• If you notice rust, an unusual odor, excessive heat, or any other abnormal state upon using the battery for the first time after purchase, stop use
a
nd contact your HIOKI distributor.
• Check the battery pack’s positive and negative terminals and connect
them properly to the instrument or measurement unit.
• Always charge the battery before using it for the first time after purchase
or after it has been stored for an extended period of time.
• Keep the ambient temperature between 5°C and 35°C while charging the
battery pack. When charging at low temperatures near 5°C, the battery
pack will hold less charge than when charged at 23°C. The lower the
temperature, the shorter the time the battery pack will power the device.
• The battery pack’s service life (defined as the ability to retain 70% or
more of its initial capacity) is approximately 300 charge/discharge cycles.
(Service life varies with the method of storage and operating environment.)
• When storing for an extended period of time, remove the battery pack
from the instrument or measurement unit and store in a cool place (about
20°C). Charge the battery pack for approximately 30 minutes once every
year in an instrument or measurement unit.
• The battery pack is a consumable. Degraded operating times following
proper charging indicate that the battery pack has reached the end of its
service life. Replace it with a new battery pack.
When transporting the Z1007 Battery Pack on an aircraft
• The Z1007 Battery Pack uses a rechargeable lithium-ion battery.
• Transport of lithium-ion batteries on aircraft is subject to restrictions based on UN recommendations.
• Before repairing or calibrating devices that use the Z1007 Battery Pack or transporting
them on an aircraft, contact your authorized Hioki distributor or reseller.
Page 25
Using the AC Adapter
• Use only the supplied Model Z1008 AC Adapter. AC adapter input
voltage range is 100 to 240 VAC (with ±10% stability) at 50/60 Hz. To
avoid electrical hazards and damage to the instrument and measurement units, do not apply voltage outside of this range.
• When connecting the AC adapter to the instrument, a measurement
unit, or a power outlet, always turn off the instrument and measurement unit first.
• To avoid electrical accidents and to maintain the safety specifications of this instrument and measurement units, connect the supplied power cord only to a 3-contact (two-conductor + ground)
outlet.
Turn off the power before disconnecting the AC adapter.
13
Operating Precautions
Page 26
14
Operating Precautions
Handling of temperature and humidity sensor
Model Z2000 Humidity Sensor and Model Z2010/Z2011 Humidity Sensor
are not dustproof or waterproof. Do not use the sensor in locations where
it may be exposed to dust or water. It may cause a malfunction of the
instrument.
• Sensor sensitivity and precision will degrade over time, even under normal operating conditions. To maintain the instrument’s ability to make
m
easurements that conform to the accuracy specifications, it is recommended to replace the temperature and humidity sensor with a new unit
o
nce it has been used for one year after being opened.
• When the sensor is used outside the specified operating (storage) environment, the sensor accuracy may deteriorate even within the 1 year
a
ccuracy warranty period and accurate measurement cannot be per-
formed.
• In principle, the surface of the instrument’s temperature and humidity
se
nsor may become contaminated if exposed to an environment containing organic gases (ketone, acetone, ethanol, toluene, etc.), increasing
t
he error component of humidity measurement.
• Do not expose the temperature and humidity sensor to any concentrated
ch
emical solvent for an extended period of time while it is used or stored.
• The sensor may become contaminated by organic gases released from
so
me types of vinyl chloride and packaging material.
• When the temperature and humidity sensor is not used, place it with a
d
rying agent in a plastic bag, seal the bag completely, and store it in a
cool, dark place.
• Do not allow any condensation to form. Condensation can form particularly in any environment where the temperature changes drastically.
• This instrument does not come with a guarantee against any problem
wh
en the sensor is used outside the specified operating (storage) envi-
ronment.
• Change in humidity (lower to higher, or higher to lower) affect s m easured
h
umidity values due to hysteresis. For the Z2000 Humidity Sensor, an
arithmetic difference of about 3%RH will arise; for the Z2010/Z2011
Humidity Sensor, an arithmetic difference of ±1%RH or narrower will
arise.
Page 27
Operating Precautions
Connection Precautions
When connecting measurement cables to a Wireless Voltage/Temp Unit or
Wireless Universal Unit
Do not leave the Unit connected to test objects in environments
where a voltage surge might exceed the dielectric withstand voltage.
Doing so could result in damage to the measurement units, bodily
injury or fatal accident.
• To avoid electric shock or a short-circuit accident, disconnect
power to the measurement line before turning on the measurement
unit.
• To avoid shock and short circuits, turn off all power before connecting measurement cables.
• Do not connect a cable to the measurement units while it is connected to the object to be measured. Otherwise, an electric shock
accident may occur
• To avoid short-circuit accidents, make certain that connections are
secure
.
• To avoid electric shock and short-circuit accidents, always close
the analog input te
• To avoid electric shock, use the recommended wire type to connect
to the current input terminals, or otherwise ensure that the wire
used has sufficient current handling capacity and insulation.
• Measurement units are not drip-proof and should be installed so
that water or other liquids cannot flow down measurement cables
and enter the unit enclosure via the terminal block. One way to do
so is to orient the unit so that the measurement cables are lower
than the unit.
.
rminal cover and tighten the screws.
15
Page 28
16
Input and Output
Terminals
Maximum
Input Voltage
Maximum rated
voltage to earth
Max. Inter-Channel
Voltage
Analog Input
Terminals
(both Voltage/
Temp Unit, and
Universal Unit)
±100 VDC 300 V AC,DC
300 VDC,
However, channels
are not isolated
when using resistance thermometer
sensors and during
resistance or humidity measurement.
Operating Precautions
• The following table lists the analog input terminals’ maximum input
voltage, input-to-ground maximum rated voltage, and channel-tochannel maximum rated voltage for each unit.To avoid electric shock
accidents and damage to the instrument and measurement units, do
not exceed these voltages.
• Channels are insulated by semiconductor relays. When a voltage
beyond the specification is applied between the channels, the semiconductor relay may short circuit. Please ensure that a voltage beyond
specification, especially a surge such as a lightning, is never applied.
When an abnormal measurement value is observed, please contact
your authorized Hioki distributor or reseller for inspection.
• When connecting a measurement cable of 3 m or more in length, the
cable may experience external noise or other EMC effects.
• Route measurement leads and cables as far away as possible from
power and earth lines.
• Measurement values may be scattered if the leads are routed in parallel
with other devices. If they must be parallel, check operation before taking
measurements.
Page 29
17
Input and Output
Terminals
Maximum
Input Voltage
Maximum rated
voltage to earth
Max. Inter-Channel
Voltage
Alarm Output
Terminals
−
Non-Isolated
(instrument/GND
Common)
Non-Isolated
(instrument/GND
Common)
External Trigger
(EXT.TRIG)
Terminal
0 to 10 VDC
Non-Isolated
(instrument/GND
Common)
−
Trigger Output
(TRIG.OUT)
Terminal
−
Non-Isolated
(instrument/GND
Common)
−
Operating Precautions
When connecting to the instrument’s alarm output terminals or external control terminal
• To avoid electric shock or damage to the instrument, always
observe the following precautions when connecting to alarm output
terminals and External Control Terminals.
• Always turn off the power to the instrument and to any devices to
be connected before making connections.
• Ensure that devices and systems to be connected to the External
Control Terminals are properly isolated.
• Be careful to avoid exceeding the ratings of External Control Terminals.
• Never apply voltage to the Alarm output terminals and TRIG OUT
terminals. The instrument will be damaged.
• The grounds for the Alarm output, EXT TRG and TRIG OUT terminals are common with the instrument grounds (GND), and are not
isolated. To avoid damaging the instrument, connect wiring so as
to avoid any potential difference between the grounds of the Alarm
output, EXT TRIG and TRIG OUT terminals and connected devices
(or system).
Page 30
18
Operating Precautions
Using a SD memory card/USB flash drive
• Store SD memory cards and USB flash drives out of reach of children to prevent accidental ingestion.
• Do not modify, disassemble, or repair SD memory cards or USB
flash drives. Doing so may result in fire, electric shock, or injury.
• Inserting a SD memory card/USB flash drive upside down, backwards or in
the wrong direction may damage the SD memory card, USB flash drive, or
instrument.
• Never eject a SD memory card/USB flash drive while measuring or when
t
he instrument is accessing the card. Data on the SD memory card/USB
flash drive may be destroyed. (The SD icon/USB flash drive icon at the
lower left is red while the card is being accessed.)
• Do not transport the instrument while a USB flash drive is connected.
Da
mage could result.
• As the SD memory card/USB flash drive is sensitive to static electricity,
d
amage to the SD memory card/USB flash drive or wrong operations by
the instrument may occur due to static electricity. Please be careful when
handling it.
• With some USB flash drives, the instrument may not start up if power is
t
urned on while the USB flash drive is inserted. In such a case, turn
power on first, and then insert the USB flash drive. It is recommended to
try out operation with a USB flash drive before starting to use it for actual
measurements.
• Use USB flash drives within the specified temperature and humidity
r
ange.
• Using SD memory cards or USB flash drives while there is moisture on
their terminals may result in fire or electric shock.
• Do not apply labels or other adhesives to SD memory cards. Doing so
may cause them to become excessively hot or catch on fire.
Page 31
19
Operating Precautions
• The Flash memory in a SD memory card/USB flash drive has a limited
operating life. After long-term usage, data storage and retrieval become
difficult. In this case, replace the SD memory card/USB flash drive with a
new one.
• We cannot provide compensation for data loss in a SD memory card/
USB flash drive, regardless of content or cause of the damage. Data is
also cleared from memory if a long time passes after measuring. Always
maintain a backup of important data stored on a SD memory card/USB
flash drive.
• Format new SD memory cards and USB flash drives before use.
• Format SD memory cards and USB flash drives with the instrument.
• Formatting an SD memory card or USB flash drive on a computer may
cause a
utomatic saving of data to take more time or prevent real-time
saving from keeping pace with data recording.
• Verify that the SD memory card is not write-protected before inserting it
into th
e instrument.
• Although data can be saved in real time on a USB flash drive, it is recommended to use an SD memory card in order to ensure data integrity.
Pr
oper operation is not guaranteed for media other than the included (or
an optional) genuine Hioki SD memory card.
• Adhere to the following precautions to prevent internal data from being
dam
aged or lost:
Do not touch terminals or contact surfaces directly or with metal.
Do not cause the instrument to vibrate, subject it to mechanical shock, or
turn
it off while writing or reading data.
Before initializing an SD memory card or USB flash drive, verify that it
does n
ot contain any necessary data (files).
Do not bend SD memory cards or USB flash drives, subject them to
excessive f
orce or shock, or drop them.
CD Handling
• Exercise care to keep the recorded side of discs free of dirt and
scratches. When writing text on a disc’s label, use a pen or mar ker with a
soft tip.
• Keep discs inside a protective case and do not expose to direct sunlight,
high te
mperature, or high humidity.
• Hioki is not liable for any issues your computer system experiences in
the co
urse of using this disc.
Page 32
20
Operating Precautions
Page 33
21
Record anomalies
Abnormal events can be analyzed by recording with the trigger function (p. 127).
Use the alarm function to output
signals when anomalies occur
(p. 151).
Waveform observation
A
B
123.4V
Gauge
display (p.
Zoom in/
out (p.
Numerical
display (p.
Event search
(p. 121)
T
1 2
Cursor Measurements (p. 119)
Using the A/B cursors, values at cursor
locations on waveforms and the time at
trigger positions can
be displayed.
Simultaneously performs six numerical
calculation types, including maximum
and average values.
Numerical Calculations (p. 183)
Waveform Calculations (p. 191)
Displays on one
channel the sum, difference, product, or
quotient of values
measured on any two
analog channels.
CH1-1
CH2-1
W1
Measurement data and
setting configurations
are stored, read and
managed as data files
Measurement data can be
stored to and read from the included or an optional SD memory card or USB flash
drive (p. 159).
Observe on a PC
Monitor and analyze measurement data with the supplied application program "Logger Utility"
(p. 234).
Display in converted
units
Using the scaling function, input
values can be displayed in units
of the actual physical quantity
being measured, such as current or flow volume (p. 95).
mV A
Voltage change, temperature, humidity, and resistance observation
You can collect and observe data transmitted wirelessly from
measurement units and wireless logger.
1.1 Product Overview and Features
Overview Chapter 1
1.1 Product Overview and Features
The LR8410-20 Wireless Logging Station allows the collection and observation of
data transmitted wirelessly from measurement unit and wireless logger that have
been placed in remote measurement locations.
1
Chapter 1 Overview
3
Page 34
22
1. Register measurement units, and wireless loggers with the instrument
Each instrument can connect wirelessly to up to seven measurement units, and
wireless loggers.
Once a measurement unit and wireless logger has been registered, device registration
information will be saved even if the instrument, measurement units, and wireless loggers are turned off (p. 59), unless the unit’s registration information is initialized(p. 2 03)
or the unit is deleted(p. 58).
(1) Place the measurement unit and wireless logger close to the instrument
(in a location where there are no obstructions to wireless communications).
Unit Registration screen
Configuration Navigator screen
(see the Measurement Guide)
(2) Connect an AC adapter or fully charged battery pack to the instrument and
measurement unit.
Connect the AC adapter to the wireless logger or install its batteries.
(3) Turn on both the instrument and the measurement unit.
(The wireless logger will turn on automatically once the AC
adapter is connected or batteries are installed.)
(4) Register the measurement unit and wireless logger. (p. 55)
(If there are no registered units when the instrument is powered on,
[QUICK SET]-[Unit Guide] will be displayed initially. For more information about the
[Unit Guide], see the Measurement Guide.)
Up to 7 measurement units and wireless loggers
Measurement unit Wireless logger Instrument
Instrument/
Measurement unit
Wireless
logger
1.2 Measurement Flow
1.2 Measurement Flow
Page 35
23
2. Prepare for measurement (installation and wiring).
(1) Insert the SD memory card (included) into the instrument.
(3) Install the measurement unit in the measurement location
(check the LED display).
Check the unit No. LED.
Flashing: The communications state is poor.
Move the measurement unit closer or remove obstructions to
communications.
Off: No connection has been established.
Move the measurement unit closer or remove obstructions to
communications and then check the connection again.
Measurement unit
(2) Attach the fixed stand (optional feature) and mounting bracket (included)
Instrument :Use the Z1009 Fixed Stand to place the instrument at an angle
on a table or desk or mount it on a wall. (For more information
about how to attach the Z1009, see the instruction manual that
came with the Z1009.)
Measurement unit :Use the mounting bracket (included) to mount the measure-
ment unit on the wall.
Attaching and Mounting the Bracket
75
50
42
2-R2.2
1 Using the included M3 × 4 mm screws, attach the bracket to the measurement unit.
(Use M3 × 4 mm screws. If you use screws
longer than 4 mm, they may damage
the measurement unit by pushing against it.)
2 Mount the bracket on the wall with two M4 screws. (Screws for mounting the bracket
on the wall are not included. Use appropriate commercially available screws. It is
recommended to use screws that are at least 8 mm in length.)
12
Position the wireless logger in the measurement location (check the screen
display).
Check the Bluetooth and antenna icons.
(Bluetooth icon)
Displayed : The unit can communicate with the instrument.
Not displayed : The unit cannot communicate with the instru-
ment. Press the power key once quickly to display the Bluetooth icon.
(Antenna icon)
Signal strength is indicated using a three-bar display. If possible, position the wireless logger so that all three antenna bars
are shown.
Wireless logger
Power key
1.2 Measurement Flow
1
Chapter 1 Overview
3
Page 36
24
(4) Connect the measurement unit and wire-
less logger to the measurement target.
(3) Connect the measurement
cables.(p. 46)
Configure Recording Settings (p. 68)
1 Set the data acquisition (record-
ing) interval ([I
nterval]), and re-
cording length ([Recor
d time]).
2 En able auto saving of measured
data to removable storage (SD
memory card or USB flash drive)
(p. 163).
Data stored in internal buffer memory is
lost about 30 minutes after power-off. It
is recommended to have the instrument
automatically save important data to the
included SD memory card or an optional
SD memory card. (Data can also be automatically saved to a USB memory stick.)
Move to a
setting item
Open the
setting options
Select Apply
1
1
2
3. Set the measurement conditions.(p. 68)
Select input channels, and set input
types and measurement ranges.
Pre-existing setting configuration data can be loaded from the instrument or removable storage
(p. 171).
Make other settings as needed.
Waveform Display (p. 91)
Scaling (p. 95)
Titles and Comments (p. 98)
Noise Suppression (p. 100)
View/Edit All-Channel Settings List
(p. 101)
Configure Input Channels (p. 72)
Move to a
setting
Open the
setting
Select Apply
1.2 Measurement Flow
Page 37
25
4. Correct for input unit divergence.
(Zero Adjustment)(p. 63)
Press the START / STOP
Measure (Record) once, and stop.
[Repeat]: Off
Stop
Measure-
ment
When measuring (recording) using the trigger function (p. 127), measuring occurs only
when an input waveform satisfies the specified trigger criteria.
(default setting)
Measure (Record) repeatedly.
[Repeat]: On
5. Starting and Stopping Measurement (p. 36)
Start Measurement
6. Observing Data
View Measurement Data (p.
111)
Waveforms can be zoomed and numerical values confirmed.
Save Data (p. 159)
Measurement data, waveform data,
screen images and numerical calculation results can be saved.
Calculate (p. 183)
Numerical measurement data can be applied to calculations.
View on a PC (p. 234)
Observe measurement data with the
supplied Logger Utility program.
7. When Finished
Turn the instrument, measurement units, and
wireless loggers Off (p. 54)
Instrument/
Measurement unit
Wireless
logger
1.2 Measurement Flow
1
Chapter 1 Overview
3
Page 38
26
Front Panel
Display Screen (p. 113)
5.7-inch TFT color LCD
Screen Configurations (p. 34)
Operating Keys/LED (p. 27)
External Control Terminals (p. 28)
Rear Panel
Battery Compartment (p. 41)
The optional Model Z1007 Battery
Pack is installed here.
MAC address
Shows the MAC address.
Do not remove this label, as it is required for product
support.
Serial No.
Shows the serial number.The serial number consists of 9 digits.
The first two (from the left) indicate the year of ma nufacture,
and the next two indicate the month of manufacture.
Do not remove this label, as it is required for product support.
Wireless certification number
Environmental protection
use period(EPUP) label
Warn-
1.3 Names and Functions of Parts, Screen Configurations
1.3 Names and Functions of Parts, Screen
Configurations
Wireless Logging Station
Page 39
Operating Keys/LED
WAVE/DATA
Selects among Waveform/Numerical screen displays
(p. 34).
SET
Displays the Settings screens,
and switches among the screen
tabs with each press (p. 34).
FILE
Displays file information(p. 33).
Choose a screen
Press to save data manually
(p. 162)
.
Saving operations
Setup and display
Instrument status
POWER
Lights when powered on (p. 54).
CHARGE
Light s wh i l e c h a r g i ng the Z1007 Battery Pack
(p. 42).
SCROLL/CURSOR
Select waveform scrolling or
A/B cursor movement.
Left and Right
Cursor keys
Scroll waveforms and move
A/B cursors (p. 35).
Scroll waveforms and
read cursor values
Stop measurement
Start and stop measurement.
The LED at the left lights
green while measuring
(p. 36).
Press while measuring to in-
sert event markers in the measurement data. (p. 121)
Start measurement
UNIT
Switches input units.
CHAN
Select channels.
MONITOR
Shows the current input waveform and numerical values
(Data is not captured to the
instrument’s internal buffer
memory or external media [SD
memory card or USB memory
stick].)
QUICK SET
Switches to the Configuration
Navigator.
ESC
Cancels the operation.
Cursor keys
Moves the position
of the cursor (blinking selection) on the
screen.
ENTER
Accepts displayed
settings.
■Warning(Alarm)
Lights up when any of the four alarm
channels satisfies the alarm conditions.
27
1.3 Names and Functions of Parts, Screen Configurations
1
Chapter 1 Overview
3
Page 40
28
Upper Side
POWER Switch
Turns the instrument
on and off (p. 54)
LAN cable port
Use for PC communications via LAN.
Connect an optional Model 9642 LAN Cable (p. 231).
AC Adapter Socket
Connect the supplied Model
Z1008 AC Adapter (p. 44).
SD memory card Slot
Use to save data to a SD memory
card.
Insert the included or an optional
SD memory card. (p . 6 0) .
External control terminals
ALM1 to ALM4:
Output alarm signals.(p. 151)
EXT.TRIG:
Inputs the external trigger signal.
(p. 205)
TRIG.OUT:
Outputs the trigger signal.(p. 206)
GND: Ground terminal
USB Cable Port
(USB 2.0 mini-B receptacle)
Use for PC communications via
USB. Connect the supplied USB
cable (p. 216).
USB Port
Use to save data to a USB
flash drive.
Insert an USB flash drive
(p. 61).
1.3 Names and Functions of Parts, Screen Configurations
Page 41
29
Front Panel
Unit No.
The LED for the registered unit number will light up.
If the communications status is poor, the LED will
flash.
• AC ADAPTER
Lights up when power is being supplied from the AC adapter or another
external source.
•BATT
Lights up when power is being supplied from the Z1007 Battery Pack.
• CHARGE
Lights up when the Z1007 Battery
Pack is being charged.
Wireless certification number
Battery Compartment(p. 41)
The optional Model Z1007 Battery Pack is
installed here.
Warning
Environmental protection
use period(EPUP) label
Right Side
Serial No.
Shows the serial number. The serial number consists
of 9 digits. The first two (from the left) indicate the year
of manufacture, and the next two indicate the month
of manufacture.
Do not remove this label, as it is r equired for pro duct
support.
Rear Panel
1.3 Names and Functions of Parts, Screen Configurations
UNIT
1
Chapter 1 Overview
3
Page 42
30
Measurement Parameter
• Voltage
• Temperature (thermocouple)
M3 screw terminal block
Input channels: 15
CH1 CH15
Measurement Parameter
• Voltage
• Temperature
(thermocouple or resistance temperature detector)
• Resistance
• Humidity (using Hioki Z2000 Humidity Sensor)
Push-button terminal block
Input channels: 15
CH1 CH15
1.3 Names and Functions of Parts, Screen Configurations
Measurement Units
The instrument is used with the following two types of measurement units.
For more information about meas
age/Temp Unit Specifications" (p. 286) and "12.3 LR8511 Wireless Universal Unit
Specifications" (p. 292).
Up to seven units can be connected wirelessly to one Wireless Logging
Station.
LR8510 Wireless Voltage/Temp Unit
Measures voltage as well as temperature using a thermocouple.(p. 46)
urement units, see "12.2 LR8510 Wireless Volt-
LR8511 Wireless Universal Unit
Measures voltage, temperature using a thermocouple, temperature using a resistance
perature detector, resistance, and humidity using the Z2000 Humidity Sensor.(p. 46)
tem
Page 43
31
Measurement Parameter
•Pulse
•RPM
Connection terminal
Connection cable: L1010
No. of input channels:2
Measurement Parameter
•Current
Connection terminal
Clamp Sensors:
9657-10,9669,9675*,9695-02,
CT6500,CT7044,CT7045,CT7046,
CT7631,CT7636,CT7642,CT7731,
CT7736,CT7742,CT9667,CT9691-90,
CT9692-90,CT9693-90
No. of input channels:2
1.3 Names and Functions of Parts, Screen Configurations
Wireless logger
For more information about part names and functionality, see the wireless logger's User
Manual.
Types of wireless logger
The wireless logger is available in the five types shown below. For more information
ut wireless logger specifications, see each model's User Manual.
abo
Each wireless logging station can accommodate up to seven wireless connections.
LR8512 Wireless Pulse Logger
The LR8512 provides pulse measurement, RPM measurement, and logic measurement
ability.
cap
?
1
Chapter 1 Overview
3
LR8513 Wireless Clamp Logger
The LR8513 provides current measurement capability using clamp sensors.
Page 44
32
Measurement Parameter
• Temperature
• Humidity
Connection terminal
External temperature/humidity sensor:
Z2010/Z2011 Humidity Sensor
No. of input channels: 2 (2 temperature channels +
2 humidity channels)
Measurement Parameter
• Voltege
• T emperature(thermocouple)
M3 screw-down terminal block
No. of input channels: 2
• Fungal index
(Computed from temperature and humidity)
• Fungal growth projection
(Project fungal growth from fungal index)
Connection terminal
External temperature/humidity sensor:
Z2010/Z2011 Humidity Sensor
No. of input channels:1 (1 temperature channels +
1 humidity channels)
Output terminal No. of alarm outputs:1
Connection Cable:L1010
Measurement Parameter
• Temperature
• Humidity
1.3 Names and Functions of Parts, Screen Configurations
LR8514 Wireless Humidity Logger
The LR8514 provides temperature and humidity measurement.
LR8515 Wireless Voltage/Temp Logger
The LR8515 provides voltage measurement and thermocouple-based temperature measurement.
?
?
LR8520 Wireless Fungal Logger
In addition to performing temperature and humidity measurement, the LR8520 can
record fungal index and fungal growth projection data.
?
Page 45
33
About the Icons (on all screens)
Clock
"Setting the Date and Time" (p. 202)
Power source indicator
Indicates the instrument's power source.
AC adapter operation
Battery pack operation
(Fully charged battery pack)
Battery pack operation
Battery pack operation (low battery)
Status of communications with the unit
(searching)
Status of communications with the unit
(good)
Status of communications with the unit
Status of communications with the unit
(poor)
SD memory card,
USB flash drive
Displayed when a SD memory card/
USB flash drive is inserted. The icon
appears red when accessing the SD
memory card/USB flash drive.
The icon for the media that has been
selected as the priority save destination will turn green. If there is no priority save destination media, the icon
for the media serving as the save
destination will turn yellow.
(Bottom of
the screen)
View and manage files on the SD memory card/USB flash drive (p. 174), (p. 1 76).
File Screen
Operational information is displayed
along the bottom of
the screen.
1.3 Names and Functions of Parts, Screen Configurations
1
Chapter 1 Overview
3
Page 46
34
[CH] Screen
[Conv/Calc] Screen
[Comment] Screen
Enter channel comments (p. 98).
[Setting] Screen
[List] Screen
[Trig & Alm] Screen
[System] Screen
Configure the system environment (p. 195).
Settings Screens
Operational information
is displayed along the
bottom of the screen.
Make these settings to convert
measured values to arbitrary units
for display (p. 101).
Recording criteria (triggering)
and warning sounds can be set
for each channel (p. 127).
Make settings while viewing all
channel settings (p. 101).
Make settings for recording
(p. 68).Set numerical calculation,
auto-saving and reservation.
Make input channel settings while
viewing the monitor display
(p. 72).
[UNIT] Screen
Register measurement units and
wireless loggers.
You can also edit each unit’s ID
name.
The screen switches each time you
press the key.
(8 display types)
Press the left/right
keys to select
between the
Settings screens.
When a tab is selected with the cursor,
press the left/right
cursor keys to select
between the Settings
screens.
Selects a measurement input unit
and its settings.
1.3 Names and Functions of Parts, Screen Configurations
Page 47
35
Select the item to
change.
Show available setting
options.
Select the desired
setting.
Changing screen contents
Setting Screen
Waveform/Numerical Screen
Apply the new setting, or cancel it.
Scrolling a waveform
See: "Scrol ling Waveforms"(p
1
Scroll
backward
Scroll
forward
2
Hide A/B cursors
Reading values at cursors
Show A/B
cursors
Move the A/B cursors.
Values at cursor positions can be read
numerically.
You can select the cursor
display type and which
cursor(s) to move (p. 119).
1
2
1.4 Basic Operation
1.4 Basic Operation
Screen Operations (changing settings, scrolling waveforms, and displaying values)
1
Chapter 1 Overview
3
Page 48
36
Press START.
(The green LED lights.)
Start Measurement
Important
If [Start/Stop message] is enabled on the System screen, the
Start confirmation message appears. Select [Yes] to start mea-
surement.
When restarting measurement after stopping, data in the instrument’s internal memory is overwritten. Be sure to save important data to removable storage before restarting measurement.
When [Repeat] (record multiple instances of the specified
recording length) is enabled or [Record time] set to [Cont]
(record continuously) :
Pressing STOP stops measuring.
When [Repeat] is disabled (Off) or [Record time] set to [Time] :
Measuring stops after the specified recording length.
(If [Start/S top message] is enabled on the System screen, the Stop confirmation message appears when you press STOP during measurement.
Pressing STOP during recording displays a confirmation message. Select
[Yes] to stop measuring.)
Finish Measurement
For details about repeating and continuous recording:
See: "R ecordi ng time specification(Record time specification)"(p .69),
"Repeat Recording (Repeat)"(p .69)
1.4 Basic Operation
Starting and St opping Measurement
Start measuring (acquiring measurement data) as follows.
When Auto saving is enabled, data is recorded to the specified removable storage (SD
memory card or USB flash drive) as it is being recorded to internal buffer memory.
To automatically save measurement data, confirm the following before
starting:
• Auto saving is properly set (p. 163)
• The removable storage is properly inserted (p. 60)
• There is sufficient free space on the removable storage (p. A14)
Page 49
37
Press START Press STOP
Stop
Measuring
Start
Measuring
Measuring
Recording time
Stop
Measuring
Start
Measuring
Measuring
Recording
time
Dead time
Stop
Measuring
Start
Measuring
Measuring
Recording time
Stop
Measuring
Start
Measuring
Measuring
Recording
time
Dead time
Stop
Measuring
Start
Measuring
Measuring
Dead time
Measuring
1.4 Basic Operation
About Measuring Operation
See: About Continuous and Repeating Recording: (p. 68)
Record time Repeat: Off Repeat: On
Time
Time
(Recording is
opped before one
st
recording length
has elapsed)
Cont
About Dead time
When repeating recording is enabled ([Repeat] set to [On])
After a recording length has elapsed, some “d ead t ime” is need ed fo r inte rnal proce ssing
before recording can resume. No measurement occurs during the d ead time. So to a void
information loss, split data into files at a specified interval by en abling continuo us r ecord ing ([Cont]), and selecting [Split Save] for auto saving.
(Repeat Recording: same as Off)
1
Chapter 1 Overview
3
Measurement operation depends on whether the trigger or Reservation
function is used
(p. 139).
Page 50
38
Press and hold the ESC key for three seconds
to lock the other keys, and repeat to unlock.
With the Waveform/Numerical or [CH] screen displayed, press the up and down cursor
keys simultaneously.
See: "From th e [Waveform/Numerical] screen or the [CH] screen"(p .63)
Select zero-adjustment on the bottom right of the Waveform/Numerical screen -
[Gauge+Wave ] screen.
See: "From th e [Gauge+Wave] screen"(p .64)
Select zero-adjustment on the Setting screen - [List] screen.
See: "From th e [List] screen"(p .65)
1.4 Basic Operation
Disabling Key Operations (Key-Lock Function)
Keys can be disabled to avoid inadvertent operations.
Performing Zero Adjustment
Page 51
39
Insert a SD memory card
(or USB flash drive).
Press SAVE.
(A dialog appears.)
Select the save destination
and item to save, and press
ENTER.
Select [Yes] in the confirmation dialog, and press
ENTER again.
(Data is saved on the selected
removable storage.)
1.4 Basic Operation
Saving Data
Measurement data, settings, screen images and numerical calculation results can be
saved.
For details of the saving methods, see "Chapter 6 Saving & Loading Data" (p. 159).
(Default settings)
Saving Method: [Select & Save] (Press SAVE to select and save data.)
1
Chapter 1 Overview
3
Page 52
40
Press MONITOR.
You can switch the monitor display format
by pressing the monitor key again.
Wave
Select to display the waveforms for all channels,
or for those on a selected input unit or channel.
Unit
Select the input unit for the value display.
Move the cursor to [UNIT1], press
ENTER, and switch with the up/down
cursor or UNIT.
Each channel’s display is switched
with the CHAN keys.
1.4 Basic Operation
Confirming Inputs (Monitor)
You can confirm the status of inputs and display ranges with the current settings (data is
not acquired to internal buffer memory).
This function is convenient for checking measured values before activating real-time saving(Auto saving).
• The monitor function is not available while measuring.
• To display instantaneous values while the instrument is measuring, first
press WAVE/DATA to switch to the [Wave+Value] display, then start
measurement.
• Depending on the scaling setting, channels requiring more than 14 characters to display the measured value and unit symbols may be displayed
in
smaller characters.
Page 53
Measurement
1 Turn off the instrument.
(Disconnect the AC adapter and cables, if connected.)
2 On the back of the instrument,
loosen the screws affixing the
battery compartment cover , and
remove it.
4 Tighten the screws in the com-
partment cover.
3 Insert the Z1007 Battery Pack
vertically and slide into place
toward the pins.
Instrument Measurement units
1 Turn off the measurement unit.
(Disconnect the AC adapter and
cables, if connected.)
2 On the back of the measure-
ment unit, loosen the screws affixing the battery compartment
cover, and remove it.
3 Insert the Z1007 Battery Pack
vertically and slide into place
toward the pins.
4 Tighten the screws in the com-
partment cover.
Orient the battery pack
so that the flat surface
is facing down (toward
the instrument).
Align
Orient the battery pack
so that the flat surface
is facing down (toward
the instrument).
Align
41
2.1 Using the Battery Pack (Option)
Preparations
Chapter 2
2.1 Using the Battery Pack (Option)
When not connecting the AC adapter to supply commercial power to the instrument
or measurement unit, either device can operate on the optional Z1007 Battery Pack
alone. When using commercial power, the battery pack can be used as a backup
power supply in case of a power outage.
Charge the battery pack fully before using it the first time.
Be sure to read "Using the Battery Pack" (p .10) before installing.
Install the Battery Pack
Required items: phillips screwdriver (No.2), Hioki Z1007 Battery Pack
2
Chapter 2 Measurement Preparations
3
Page 54
42
Charging is finished when the
CHARGE LED turns off.
The CHARGE LED
lights orange when
charging begins.
Instrument
Measurement unit
Charging is finished when the CHARGE LED
turns off.
The CHARGE LED lights orange
when charging begins.
Battery pack continuous operating times
Instrument:
The continuous operating time when powered by the battery pack alone is approximately three hours (after being fully charged, with 25% backlight brightness, reference
value at 23°C).
See: "Adjust Backlight Brightness" (p .198)
Measurement units:
Longer continuous operating times can be achieved on battery pack power if a longer
recording interval is used. The continuous operating time when powered by the battery
pack alone is approximately 24 hours (after being fully charged, recording interval of
100 ms, reference value at 23°C) or approximately 120 hours (after being fully charged,
recording interval of 1 min, reference value at 23°C).
2.1 Using the Battery Pack (Option)
Charge the Battery Pack
An attached battery p ack can be charged whenev er the inst rument or mea surement
unit is connected to commercial power using the Z1008 AC Adapter, regardless of
whether the instrument or unit is turned on. (p. 44)
• Displaying the monitor screen or channel configuration screen will use
the same amount of battery power as measurement (even if measure
ment has not been started), because those screens cause the instrument to communicate with measurement units.
• Operating times will shorten as the temperature falls.
-
Page 55
43
When to charge
Instrument:
When powering the instrument from the battery pack without the Model Z1008 AC
Adapter, the low battery indicator ( ) is displayed when the battery is almost out
of power, indicating that the battery pack requires charging.
The battery will be completely out of power approximately 10 minutes after the instrument’s battery icon changes to ( ) (after being fully charged, with 2 measurement
units connected, while saving waveform data to the SD memory card [in real time], with
70% backlight brightness, with the backlight saver off, reference value at 23°C).
Measurement units:
When powering the instrument from the battery pack without the Model Z1008 AC
Adapter, the battery LED (BATT) will change from being lit up to flashing when the battery is almost out of power.
The battery will be completely out of power approximately 1 hour (with a recording
interval of 100 ms) or 10 hours (with a recording interval of 1 min) after the unit’s battery LED starts flashing (after starting measurement with the battery fully charged, reference values at 23°C).
Approximate charging time(Instrument and measurement units):
Charge time: Approx. 7 hours (when charging a battery pack with little power left)
2.1 Using the Battery Pack (Option)
2
Chapter 2 Measurement Preparations
3
• For reasons involving the battery pack’s characteristics, the displayed
remaining battery life will differ from the actual amount of remaining
battery power depending on the settings in use, operating tempera
ture, and number of battery charge cycles.
• When charged at low temperatures near 5°C, the battery pack will not
charge as fully as when it is charged at 23°C.
-
Page 56
44
2.2 Connecting the AC Adapter
2.2 Connecting the AC Adapter
Connect the included Z1008 AC Adapter and power cord to the instrument and
measurement units and plug the cord into a wall outlet. When used with the battery
pack installed, the battery serves as an operating backup supply in case of power
failure, and the AC adapter otherwise has priority.
Before connecting, be sure to read "Using the AC Adapter" (p .13) and
"Handling the Cords and Cables" (p .9).
• Connect the output plug to the instrument or measurement units before
plugging the power cord into an outlet. Connecting an energized output
plug to the instrument could damage the instrument.
• When connecting an external power supply, connect the output plug to
t
he instrument or measurement units before activating the external
power supply.
Page 57
45
1
4
2
1
4
(Instrument)
(Measurement unit)
Connect the output plug
of the AC adapter to the
instrument.
3
2
Insert the cord into the
groove on the corner of
the instrument to keep it
from being pulled out.
3
Insert the cord into the
groove on the corner of
the measurement unit to
keep it from being pulled
out.
Rated supply voltage is 100 to 240 VAC,
and rated supply frequency is 50 or 60 Hz.
AC adapter
Power cord
Connect the
power cord
to the inlet
socket on the
AC adapter.
Plug the power
cord into the
mains outlet.
Power cord
AC adapter
Connect the
power cord
to the inlet
socket on the
AC adapter.
Plug the power
cord into the
mains outlet.
Connect the output plug
of the AC adapter to the
measurement unit.
For more information about how to connect the AC adapter to the wireless logger or install its batteries, see the wireless logger's User Manual.
2.2 Connecting the AC Adapter
2
Chapter 2 Measurement Preparations
3
Page 58
46
Do not use if damage is
present as you could
receive an electric shock.
Replace the damaged items.
Metal Exposed
Is the insulation of the measurement cable to be used damaged, or
is bare metal exposed?
1
No Metal Exposed
2
Peripheral Equipment Inspection
Before using the instrument and measurement units the first tim e, verify th at it opera tes
normally to ensure that no damage occurred during storage or shipping. If you find any
damage, contact your authorized Hioki distributor or reseller.
To
Turn power off before making connections.
If damage is evident,
request repairs.
Yes
Is damage to the instrument and
measurement units evident?
Instrument Inspection
When turning power on
Does the HIOKI logo appear on the
screen?
No
2
The power cord may be
damaged, or the instrument may be damaged
internally. Request repa ir s.
Is the Waveform/NumericalWaveform/Numerical screen or Setting
screen displayed?
(When power is turned on the first
time after purchase, the Setting
NAVI screen should appear.)
No
Yes
The instrument may be
damaged internally.
Request repairs.
Nothing appears,
or the display is
abnormal
Yes
Inspection complete
2.3 Making Connections
2.3 Making Connections
Pre-Connection Inspection
Before connecting, be sure to read "Before Use" (p .8), "Handling the
Cords and Cables" (p .9), and "Connection Precautions" (p .15).
For more information about how to connect the wireless logger and clamp sensor c onnection cables, see the wireless logger's User Manual.
Page 59
2.3 Making Connections
6 mm
max.
6 mm
max.
1 Loosen the screws in the termi-
nal block cover, and lift the
cover.
2 Loosen the terminal block
screws, insert the bare ends of
the leads, and tighten the screws.
Tighten the terminal block screws to
0.8 N
⋅m or less (recommended: 0.4
N⋅m).
3 Connect to the measurement
object.
4 Replace the terminal block cover,
and tighten the screws.
Tighten the terminal block cover
screws to 0.6 N⋅m or less.
When measuring instrumentation
control equipment
(Applying 4 - 20 mA input current)
For details on instrumentation control equipment
measurements,
see (p. 75).
Connect a 250 Ω shunt resistor as
shown.
2
3
The insulation colors of wires, which are to be
connected to the plus and minus terminals, differ
depending on countries or manufactures. Check
with the manufacturer on the colors and connect
them according to instructions.
If connecting crimped terminals to the analog input terminals, use insulated terminals
for M3 screws with the size shown below.
Voltage and Thermocouple Temperature Measurement
<Connecting to the terminals of the Wireless Voltage/Temp Unit>
Required items: phillips screwdriver (No.2), measurement leads (for voltage measure-
ment), or thermocouple (for temperature measurement)
47
2
Chapter 2 Measurement Preparations
3
K, E thermocouples experience a physicalphenomenon known as short
range ordering, which can prevent accurate measurement within the
range of 250°C to 600°C.
Please choose a sensor after checking with the manufacturer of the
thermocouple you intend to use.
Page 60
48
1 With a Phillips screwdriver,
loosen the screws in the terminal
block cover, and lift the cover.
2 Push in the button on the con-
nector with a flatblade screw-
driver.
3 With the button held in, insert
the cable into the cable connection hole.
6 Replace the terminal block
cover, and tighten the screws.
Tighten the terminal block cover
screws to 0.6 N⋅m or less.
2
3
4
4 Release the button.
The cable is locked.
button
5 Connect to the measurement
object.
5
The insulation colors of wires, which are to be
connected to the plus and minus terminals, differ
depending on countries or manufactures. Check
with the manufacturer on the colors and connect
them according to instructions.
2.3 Making Connections
<Connecting to the terminals of the Wireless Universal Unit>
Required items: phillips screwdriver (No.2), flat-blade screwdriver (tip width 2.6 mm),
measurement leads (for voltage measurement), or thermocouple (for
temperature measurement)
Recommended wire diameter:
Single strand diameter: φ0.4 mm - φ1.2 mm (AWG26-16)
Multi-strand: 0.2 mm2 - 0.75 mm2 (AWG24-20)
Standard insulation stripping length: 8 mm
Page 61
49
1 With a Phillips screwdriver,
loosen the screws in the terminal block cover, and lift the
cover.
2 Push in the button on the con-
nector with a flatblade screwdriver.
3 With the button held in, insert
the cable into the cable connection hole.
6 Replace the terminal block
cover, and tighten the screws.
Tighten the terminal block cover
screws to 0.6 N
⋅m or less.
4 Release the button.
The cable is locked.
4-wire configuration
3-wire configuration
2
3
4
button
5
5 Connect to the measurement
object.
The insulation colors of wires, which are to be
connected to the plus and minus terminals, differ
depending on countries or manufactures. Check
with the manufacturer on the colors and connect
them according to instructions.
2.3 Making Connections
Temperature Measurement with a Resistance Temperature Detector (RTD)
<Connecting to the terminals of the Wireless Universal Unit>
Required items: phillips screwdriver (No.2), flat-blade screwdriver (tip width 2.6 mm),
RTD
Recommended wire diameter:
gle strand diameter: φ0.4 mm - φ1.2 mm (AWG26-16)
Sin
Multi-strand: 0.2 mm2 - 0.75 mm2 (AWG24-20)
Standard insulation stripping length: 8 mm
2
Chapter 2 Measurement Preparations
3
Page 62
50
1 With a Phillips screwdriver,
loosen the screws in the terminal
block cover of the Wireless Universal Unit, and lift the cover.
2 Loosen the screws on the
humidity sensor power supply
terminals (POWER OUTPUT),
insert the tips of the cables as
shown in the figure,
and retighten the screws.
Tighten the terminal block screws to
0.8 N
⋅m or less (recommended: 0.4
N⋅m).
4 With the button held in, insert
the cable into the cable connection hole.
5 Release the button.
The cable is locked.
6 Connect to the measurement
object.
Connect the wires as follows.
7 Replace the terminal block
cover on the Wireless Universal
Unit, and tighten the screws.
Tighten the terminal block cover
screws to 0.6 N
⋅m or less.
3 Push in the button on the Wire-
less Universal Unit's connector
with a flatblade screwdriver.
3
4
5
button
2
6
Green(-)
Yellow(+)
Red(7 V)
Black(ground)
2.3 Making Connections
Humidity Measurement
<Connecting to the terminals of the Wireless Universal Unit>
Required items: phillips screwdriver (No.2), flat-blade screwdriver (tip width 2.6 mm),
Hioki Z2000 Humidity Sensor
The instrument can supply power to up to 60 pieces of Model Z2000
Humidity Sensor at once.
If the required number of sensors cannot be connected to the powersupply terminals for humidity sensors, use external terminal blocks to
connect the sensors.
Page 63
2.3 Making Connections
1 With a Phillips screwdriver,
loosen the screws in the terminal
block cover, and lift the cover.
2 Push in the button on the con-
nector with a flatblade screwdriver.
3 With the button held in,
insert the cable into the cable
connection hole.
6 Replace the terminal block
cover, and tighten the screws.
Tighten the terminal block cover
screws to 0.6 N⋅m or less.
4 Release the button.
The cable is locked.
4-wire configuration
(2- and 3-wire configurations are not
supported)
5 Connect to the measurement
object.
2
3
4
button
5
Resistance Measurement
<Connecting to the terminals of the Wireless Universal Unit>
51
Required items: phillips screwdriver (No.2), flat-blade screwdriver (tip width 2.6 mm),
measurement leads
Recommended wire diameter:
Single strand diameter: φ0.4 mm - φ1.2 mm (AWG26-16)
Multi-strand: 0.2 mm2 - 0.75 mm2 (AWG24-20)
Standard insulation stripping length: 8 mm
2
Chapter 2 Measurement Preparations
3
Page 64
52
1 Push in the button on the connector
with a flatblade screwdriver.
2 With the button held in,
insert the cable into the cable
connection hole.
3 Release the button.
The cable is locked.
Connect the '+' wire to the ALM1 (or
ALM2 to ALM4) terminal.
Connect the '-' wire to a GND termi-
nal.
Five GND terminals are provided.
Connections can be made to any GND
terminal.
4 Connect to an external relay or
control device.
4
button
1
3
2
GND
ALM1
2.3 Making Connections
Connecting Alarm Outputs
< Connecting to the external control terminals >
See: "9.3 Alarm Si gnal Output (Alarm Output)" (p. 207)
Required items: flat-blade screwdriver (tip width 2.6 mm) (to connect wires to the push-
button type terminal block on the top of the instrument), measurement
leads
Recommended wire diameter:
Single strand diameter: φ0.32 mm - φ0.65mm (AWG28-AWG22)
Multi-strand: 0.08 mm2 - 0.32 mm2 (AWG28-AWG22)
Strand diameter: 0.12 mm or greater
Standard insulation stripping length: 9 mm - 10mm
Page 65
2.3 Making Connections
1 Push in the button on the con-
nector with a flatblade screwdriver.
2 With the button held in, insert the
cable into the cable connection
hole.
3 Release the button.
The cable is locked.
Connect the '+' wire to the
TRIG.OUT (or EXT.TRIG) terminal,
and the '-' wire to a GND terminal.
4 Connect to the trigger signal’s
input and output terminals.
• Connect the TRIG.OUT terminal a
trigger input on another device, and
connect the EXT.TRIG (input) terminal to the trigger output another
device (as needed).
• Five GND terminals are provided.
Connections can be made to any
GND terminal.
4
button
1
3
2
GND
TRIG.OUT
External Control (using TRIG OUT and EXT TRIG)
< Connecting to the external control terminals >
See: "9.1 External Trigger Input" (p. 205)
See: "9.2 External Signal Output (Trigger Output)" (p. 206)
Required items: flat-blade screwdriver (tip width 2.6 mm) (to connect wires to the push-
button type terminal block on the top of the instrument), measurement
leads
Recommended wire diameter:
Single strand diameter: φ0.32 mm - φ0.65mm (AWG28-AWG22)
Multi-strand: 0.08 mm2 - 0.32 mm2 (AWG28-AW G 22)
Strand diameter: 0.12 mm or greater
Standard insulation stripping length: 9 mm - 10mm
53
2
Chapter 2 Measurement Preparations
3
Page 66
54
Upper side
Turn the power
switch on.
The power supply icon appears near the bottom right
corner of the screen (p. 33).
If the " " indicator is not displayed, the instrument is not being powered
from the AC line. In this state, the battery charge will be depleted if measuring
for a long time, and measurement may be interrupted. Verify that the AC adapter is securely connected to an AC power source and to the instrument.
Turning Power On
(Wireless Logging Station)
Turn the power switch off.
The installed battery pack is charged whenever the AC adapter is plugged
into a power outlet, even when the instrument is off.
Verify that the instrument and peripheral
devices are correctly connected.
Turning Power Off
Perform zero adjustment as needed (p. 63).
Initial screen
Turning Power On
(measurement unit)
Lights up.
2.4 Turning the Power On and Off
2.4 Turning the Power On and Off
Be sure to read "Before Turning Power On" (p .9) before turning power
on.
Page 67
2.5 Register measurement units and wireless logger with the instrument
2.5 Register measurement units and wireless
logger with the instrument
55
• Settings can also be accessed from [QUICK SET] - [Unit Guide].
• If there are no registered measurement units when the instrument
starts up, the screen will default to [QUICK SET] - [Unit Guide].
• If there is one or more measurement units when the instrument starts
up, the [Unit Guide]. screen will be displayed, and registered units will
be connected automatically. (p. 59)
2
Chapter 2 Measurement Preparations
3
Page 68
56
1
2
A search dialog box will be
displayed.
Apply
(Ten found units can be
displayed at once. When 11 or
more units are found, the page
buttons can be used.)
Select the unit you wish to
temporarily register (up to seven may be selected).
Select the [UNIT] screen.
The unit will be added.
3
4
Select [Add unit].
The [Add unit] screen
will be displayed.
The name of the unit you wish to
temporarily register will move to
the right side of the screen.
Selecting [ENTER] causes the
temporarily registered unit to be
registered.
(Pressing the ESC key cancels
the temporary registration and
returns you to the [UNIT]
screen.)
The registration dialog box will
be displayed.
Enter the unit’s identifier
(as necessary). (p. 98)
5
2.5 Register measurement units and wireless logger with the instrument
Registering Measurement Units and Wireless Logger
Page 69
57
To cancel the temporary registration
Apply
Select [Delete].
To search for measurement units again, select [Research]. When
you do so, temporary registrations will be canceled, reverting the
instrument to its state before the [Add unit] screen was opened.
If the instrument is unable to communicate with the registered units
Apply
Select [!].
If t h e instrument i s still una bl e to
communicate with the units after
some time has elapsed,
Switch to [Dealing with communica-
tions issues] on the [Quick Setup]
screen. Follow the instructions to
check the settings.
See: "Unable to establish communications
between the Wireless Logging Station
and a Unit." (p .301)
2.5 Register measurement units and wireless logger with the instrument
2
Chapter 2 Measurement Preparations
3
Page 70
58
1
2
3
Select the [UNIT] screen.
Select [Delete unit].
The [Delete unit] screen will be
displayed.
: ON
: OFF
Select the checkbox(es) [ ]
for the unit(s) you wish to delete. (Selecting [All Select] will
select all units.)
Select [Decision].
4
A deletion dialog box will be
displayed, and the selected
unit(s) will be deleted.
Deleting a registered unit from the [Delete unit] screen
2.5 Register measurement units and wireless logger with the instrument
Deleting Registered Units
There are two ways to delete registered units.
Page 71
2.5 Register measurement units and wireless logger with the instrument
1
2
A search dialog box will be
displayed.
Select the [UNIT] screen.
3
Select [Add unit].
The [Add unit] screen will be
displayed.
Apply
Select [Delete].
Select [Decision].
(Selecting the ESC, cancels the deletion and returns you to the [UNIT]
screen.)
4
A deletion dialog box will be
displayed, and the selected
unit(s) will be deleted.
Deleting a registered unit from the [Add unit] screen
If there are registered units when the instrument starts up
The instrument will connect to registered units one at a time. The connection
process may take anywhere from several seconds to several dozens of seconds.
If the [Add unit] or [Delete unit] screen is displayed, connection
processing will not be performed.
59
2
Chapter 2 Measurement Preparations
3
Page 72
60
See "6.4 Data Management" (p. 176) for details about managing data storage in the
media.
Important
Performance specifications cannot be guaranteed when using storage media
other than the included or an optional SD memory card.
2.6 Inserting a SD Memory Card or USB Flash Drive (when saving data)
2.6 Inserting a SD Memory Card or USB Flash
Drive (when saving data)
To save and reload the instrument measurement data, use the included or an
optional SD memory card (as described below) or an after-market USB flash drive.
Be sure to read "Using a SD memory card/USB flash drive" (p .18)
before using removable storage media.
Page 73
2.6 Inserting a SD Memory Card or USB Flash Drive (when saving data)
Inserting a SD memory card
Removing a SD memory card
Be sure to verify that the instrument is not accessing the
card (to save or load data, etc.).
1 Open the SD memory card slot cover.
cover
Be sure to close the cover on
the SD memory card slot.
1 Open the SD memory card slot cover.
cover
2 Face the SD memory card with the arrow
mark on top (
p), and insert it in the direc-
tion of the arrow all the way in the slot.
3 Close the SD memory card slot cover.
2 Push the SD memory card in and then
once it is protruding slightly from the
slot, grip it and pull it out.
3 Close the SD memory card slot cover.
Inserting a USB flash drive
Align the USB flash drive connector with the USB port, and insert it all
the way in.
Removing a USB flash drive
Pull the USB flash drive out.
Be sure to verify that the instrument is not accessing the card (to save
or load data, etc.).
See: To replace removable storage during real-time saving: (p. 166)
SD Card Insertion & Removal
61
2
Chapter 2 Measurement Preparations
3
USB flash drive Insertion & Removal
Page 74
62
1
2
Select the File Screen.
Select [Format].
Apply
Apply
The Format Confirmation dialog appears.
Select [Yes].
Press the ENTER key to
open the control panel.
Apply
Select [Yes].
The Format Confirmation dialog appears again.
3
4
5
2.6 Inserting a SD Memory Card or USB Flash Drive (when saving data)
Formatting a SD memory card/USB flash drive
The SD memory card or USB flash drive can be formatted by a PC or by the instrument.
Format a new SD memory card or USB flash drive before use.
This procedure describes how to format a SD memory card or USB flash drive in the
instrument.
Formatting irretrievably erases all data on the SD memory card/USB
flash drive. Always backup important data from the SD memory card/
USB flash drive before formatting.
Page 75
2.7 Compensating for Input Circuit Offset (Zero Adjustment)
From the Waveform/Numerical screen
Select
[0 Adjust].
Apply
2
3
Zero adjustment is executed.
(simultane-
ously
)
1
Display the [Waveform/Numerical]
screen or
[CH] screen
Press and hold these
keys simultaneously for
one second.
The Zero Adjust dialog
appears.
From the
[Waveform/Numerical] screen or the [CH] screen
2.7 Compensating for Input Circuit Offset
(Zero Adjustment)
63
This step is only performed when using the LR8510 or LR8511.
Zero adjustment corrects for volt age offset at
ment measurements are relative to zero volts.
Execute zero adjustment whenever input c
Zero adjustment can be performed by means of t
• From the [W
• From the [Gauge+Wave] screen(p. 64)
• From the [List] screen(p. 65)
aveform/Numerical] screen or the [CH] screen(p. 63)
the input terminals, so that the instru-
ircuit offset is a concern.
he following three methods:
2
Chapter 2 Measurement Preparations
3
Page 76
64
Apply
2
3
1
Display the [Gauge+Wave] screen
Select
[0 Adjust].
From the [Gauge+Wave] screen
Zero adjustment is executed.
2.7 Compensating for Input Circuit Offset (Zero Adjustment)
• Any zero-adjust setting is cleared upon system reset (p. 203).
(Zero-adjust values are only cleared for units that are connected. The
unit’
s zero-adjust values are not cleared when unit registration infor-
mation is initialized.)
• Zero adjustment cannot be performed while measuring.
• Change over time can be minimized by allowing the instrument to
warm up for about 30 minutes after turning it on before performing
zero adjustment.
Page 77
65
2
3
1
Display the [List] screen
Select
[0 Adjust].
From the [List] screen
Apply
Zero adjustment is executed.
2.7 Compensating for Input Circuit Offset (Zero Adjustment)
2
Chapter 2 Measurement Preparations
3
Page 78
2.7 Compensating for Input Circuit Offset (Zero Adjustment)663.1 Setting Flow Overview
Page 79
Settings Chapter 3
Display the Setting screen
When setting configuration data has been saved
For new measurement
configurations
Configure measurement settings (p. 68)
Configure measurement settings
Configure input channels (p. 72)
Reload stored settings
(p. 171)
[Setting] Screen
[Setting] Screen
[CH] Screen
(as needed)
Waveform Display (p. 91)
Scaling (p. 95)
Titles and Comments (p. 98)
Auto Save (p. 90)
Noise Suppression (p. 100)
View/Edit All Channel Set-
tings List (p. 101)
3.1 Setting Flow Overview
67
Configure measurement settings before starting to measure.
Select the display method and conf
After a measurement setting configurat
measuring immediately after loading t
igure auto saving as needed.
ion has been saved (p. 170), you can start
he setting configuration data.
3
Chapter 3 Settings
3
Page 80
68
Continuous
Recording
([Cont])
Timed
recording
([Time])
Start Measurement Stop Measurement
Press STOP to stop measuring. Otherwise, measurement continues until the stop-trigger criteria are
met.
Measurement is performed for the specified amount
of time. Measurement stops when the specified recording time has elapsed.
Measurement can also be stopped by pressing
STOP before the end of the recording time, or the
stop-trigger criteria are met.
Repeat
Recording
When stopped by a stop trigger or elapsed recording
time, measurement automatically restarts. Press
STOP to stop measuring.
([Repeat]: On)
Measurement is performed for
the specified amount of time.
Apply
Open the setting options
for the item to be set.
Select from the listed
options.
1
2
Select the [Setting]
screen.
Move to a setting item.
3.2 Configuring Measurement Settings
3.2 Configuring Measurement Settings
Configure measurement settings on the [Setting] screen.
The instrument provides continuous recording
ify whether to perform repeat recording for each.
The Setting screen cannot be displayed while measuring.
Measuring Method Setting Method
Continuous
Recording
Timed recording
Repeat Recording
Sets the record time to [Cont].
Sets the record time to [Time]. This allows you to set the amount of
time for which to record data.
Set [Repeat] to On.
and timed recording. You can spec-
Time Setting by Key Operations
Page 81
69
[Repeat]
On
Off
Change 1's digit
Change 10's digits
[Max], [Data pt s]
If you wish to record to the SD memory card or USB memory stick beyond the maximum recording time
for the instrument’s internal memory, set the record time to [Cont].
"Maximum Recordable Time" (p .14)
You cannot specify 0 d 0 h 0 min 0 s as the time. If you do so, the time will automatically be set to 0 d
0 h 0 min 1 s.
3.2 Configuring Measurement Settings
Recording Interval (Interval)
Select the data acquisition interval.
Setting options:( ∗ : default setting)
∗, 200 ms, 500 ms, 1 s, 2 s, 5 s, 10 s, 20 s, 30 s, 1 min, 2 min, 5 min, 10 min, 20 min, 30
100 ms
min, 1 h
Repeat Recording (Repeat)
Select whether to automatically start a new measurement after stopping, or to finish after
one measurement.
Setting options:( ∗ : default setting)
∗
Off
On When stopped by a stop trigger or after measurement for the specified amount of
Recording Time (Record time)
Select whether to measure for a specified time span, or continuously.
Setting options:(
Time Use when you wish to specify the recording time for measurement.
Cont
∗
Recording time specification(Record time specification)
Set when the record time is set to [Time].
Specify the duration of one recording length (time span).
The maximum setting is limited by the recording capacity of internal buffer memory. The
ctual limit depends on the selected recording interval and number of channels used for
a
measurements, so the maximum settable time is displayed as the [Max] value (indicated by
the red box).
Measuring stop after one recording length (time span).
time, measurement automatically restarts. Press STOP to stop measuring.
∗ : default setting)
Use when you wish to conduct measurement until the STOP key is
pressed or until the strop trigger criteria are satisfied.
3
Chapter 3 Settings
3
Setting options:(default se
d (0 to 499), h (0 to 23), min (0 to 59), s (0 to 59)
tting: 10 seconds)
Page 82
70
5s/div
1s
Peak
Dead time
Measuring
3.2 Configuring Measurement Settings
About the Recording Interval
• Select the data acquisition interval to suit your measurement objectives.
• Note that shorter recording intervals restrict the maximum recording time.
• You can specify values starting at 100 ms without regard to the number of
units.
• When the burnout detection setting is on, you can specify values starting
0 ms.
at 20
See:"Chapter 12 Specifications" (p. 275)
• Some waveform peaks may not be displayable with certain interval settings.
For example, when the [Interval] is 1 s a
5 s/DIV.
See: About Horizontal Axis Settings: (p. 94)
• The recording interval cannot be changed while measuring. Stop measurement before setting.
nd the [Time/DIV] (time base) is
When the record time is set to [T
ime] and [Repeat] is on, it may take time
to perform internal processing after measurement for the specified amount
of time, before measurement can be resumed (dead time). Measurement
cannot be performed during this period of time. If you wish to avoid losing
any data or segment files at a particular time, set the record time to [Cont]
and the [Split Save] setting to on for automatic saving.
Page 83
71
LR8510
LR8513
100 ms (data refresh interval)
500 ms (data refresh interval)
3.2 Configuring Measurement Settings
Data update interval
Data is updated at the unit's minimum recording interval, regardless of the
instrument's recording interval setting.
Unit
LR8510 100 ms
LR8511 100 ms
LR8512 100 ms
LR8513 500 ms
LR8514 500 ms
LR8515 100 ms
LR8520 500 ms
If the recording interval setting is shorter than the data update inte rval, there
will be some intervals when the data is not updated. Since the measured va lue shown at such times will be the same as the value for the last data update, the waveform will take on a stepped appearance.
Example: If the recording interval is set to 100 ms while using the LR8510
Minimum recording interval
(data refresh interval)
and LR8513
3
Chapter 3 Settings
3
Page 84
72
3.3 Input Channel Settings
3.3 Input Channel Settings
Configure the input channel settings on the [CH] screen.
The Setting screen cannot be displayed while measuring.
Input channels are as follows. Each channel can provide the following measurements.
• Wireless Voltage/Temp Unit
(UNIT1 to UNIT7, each with channels CH1 to CH15)
• Wireless Universal Unit
(UNIT1 to UNIT7, each with channels CH1 to CH15)
• Wireless Pulse Logger (UNIT1-7, each with channels CH1-2)
• Wireless Clamp Logger (UNIT1-7, each with channels CH1-2)
• Wireless Humidity (UNIT1-7, each with channels CH1-2)
• Wireless Voltage/Temp Logger (UNIT1-7, each with channels CH1-2)
• Wireless Fungal Logger (UNIT1-7, each with channels CH1 onl)
Application Channels Used
Voltage Measurement Channels on a Wireless VoltTemperature Measurement (usin
Temperature Measurement (using RTDs)
Humidity Measurement (p. 80)
Resistance Measurement (p. 81)
Integration Measurement
RPM measurement (p. 84)
Logic Measurement (p. 86)
Current Measurement
Temperature Measurement
Humidity Measurement (p. 80)
Fungal index
Fungal growth projection
g thermocouples) (p. 76)
age/Temp Unit or Wireless Universal Unit
Channels on a Wireless Universal Unit
Channels on a Wireless Pulse
gger
Lo
Channels on a Wireless Clamp
Logger
Wireless Humidity Logger
Wireless Fungal Logger
Wireless Fungal Logger
Reference
page
(p. 75)
(p. 78)
(p. 82)
(p. 87)
(p. 79)
(p. 89)
(p. 89)
Other than these, measurements with specific criteria and alarm outputs are available.
e "Chapter 5 Specifying Criteria for Measurements" (p. 127) for details.
Se
Page 85
73
Select the [CH] screen.
Move to a setting item.
Apply
Open the setting options
for the item to be set.
Select from the listed
options.
1
2
UNIT selects the input unit and CHAN select
the channel to be set.
3.3 Input Channel Settings
Key Setting Procedure
Unit Switching
(Input channel settings) UNIT1 UNIT7→ (alarm output channel settings) ALARM → (numerical calculation channel settings) CALC1 → CA
Channel Switching
(Input channel settings) 1-1 1-15 → 2-1 2-15 → 3-1 3-15 → 4-1 4-15 → 5-1
5-15 → 6-
(waveform calculation channel settings) W1 W30 → and return
View input status and the display range while making settings on the
[CH] screen.
After setting, press MONITOR to confirm input status and display ranges (p. 40).
1 6-15 → 7-1 7-15 (alarm output channel settings) ALM1 ALM4 →
LC2 → and return to UNIT1
to 1-1
3
Chapter 3 Settings
3
Page 86
74
Monitor display switching
Allows you to switch the information displayed by the level monitor.
(Settings on left)
[Wave]
Displays the waveform.
[Value]
Displays values for the units set on the
right side of the screen.
(Settings on right)
Allows you to select which waveform to
display if the setting on the left includes
any [wave].
[All Wave]
Displays the waveforms for all channels.
[UnitWave]
Displays the waveforms for all channels
from the units set on the right side of the
screen.
[Ch Wave]
Displays the waveforms for channels set
on the right side of the screen.
Level Monitor
Selecting [Wave] causes the scale for the
currently selected channel to be displayed.
The gauge scale is determined by measurement and display range settings.
Monitoring is not available for disabled
(Measurement Off) channels, and those
with [X] selected for their color.
3.3 Input Channel Settings
Level monitor numerical value refresh rate and waveform horizontal axis span
depend on the recording interval and horizontal axis (time base) settings.
Therefore, long recording intervals can delay numerical value display
refresh by as much as 5 seconds. If you need faster value display refresh,
select a shorter recording interval.
If the horizontal axis (time span) is too long, one division of the waveform
may n
ot be displayed.
Page 87
3.3 Input Channel Settings
1 Select the input unit (UNIT1 to 7) and channel (1-1
to 7-15), and check the box to enable the channel.
2 Select [Voltage].
3 Select the appropriate measurement amplitude
range.
Setting options:( ∗ : default setting)
When LR8510 or LR8511 is used
10 mV
∗, 20 mV, 100 mV, 200 mV, 1 V , 2 V, 10 V , 20 V,
100 V, 1-5 V
When LR8515 is used
50 mV*, 500 mV, 5 V, 50 V
: On
: Off
1
2
3
When a measured value far exceeds the range limit (range label)
"OVER" or "-OVER" is displayed in place of numerical/cursor values, and the following values
are applied to calculations and data storage.
Input type Input range +OVER value -OVER value
Voltage
10 mV 0.0163835 -0.016384
20 mV 0.032767 -0.032768
50 mv 0.32767 -0.32768
100 mV 0.163835 -0.16384
200 mV 0.32767 -0.32768
500 mv 3.2767 -3.2768
1 V 1.6384 -1.6384
2 V 3.2767 -3.2768
5 V 32.767 -32.768
10 V 16.3835 -16.384
20 V 32.767 -32.768
50 V 327.67 -327.68
100 V 163.835 -163.84
1-5 V 16.3835 -16.384
Instrumentation and Control Device Measurements
• To measure 4-20 mA current, connect a 2 50 Ω shun t re sistor between + and - a nalog inp ut
terminals (p. 47).
• Select the [1-5 V] range to measure 4-20 mA instrumentation control signal outputs.
• The [1-5 V] setting automatically selects the [10 V] range with an 5-V upper l imit and 1-V
lower limit. To change the upper and lower limits, select the [10 V] range.
Voltage Measurement Settings
Configure these settings for each voltage measurement channel.
See: "Key Setting Procedure" (p .73)
75
3
Chapter 3 Settings
3
Use the scaling function to scale measurements to any arbitrary unit
value for display
(p. 95).
Page 88
76
4
5
6
1
2
3
: On
: Off
1 Select the input unit (UNIT1 to 7) and channel
(1-1 to
7-15), and check the box to enable the channel.
2 Select [Tc].
3 Select the temperature measurement range.
The type-B thermocouple setting is disabled when the 100°C or 500°C range is selected. To use a
type-B thermocouple, first set the range to 2000°C.
4 Select the type of thermocouple to be used.
5 Enable/disable burn-out detection.
6 Select the referen ce junction compensation (RJC) method.
:
Setting options:( ∗ : default setting)
When LR8510 or LR8511 is used
100
°C∗, 500°C, 2000°C
Setting options:
When LR8515 is used
1000
°C
Setting options:( ∗ : default setting)
When LR8510 or LR8511 is used
K
∗, J, E, T, N, R, S, B, W
When LR8515 is used
K
∗, T
Setting options:( ∗ : default setting)
OFF
∗
Disable burn-out detection. Normally when the
thermocouple is disconnected, the value will
fluctuate, etc. and will not be stable.
ON Detect burn-out during thermocouple measure-
ment. When a burn-out occurs, “BURNOUT” is
dis
played as the numerical, cursor, or calculation
value, and the following values are applied to calculations and data storage: 327.66, 1638.3, and
327
6.6°C for the 100, 500, 1000°Cf.s. and
2000°Cf.s. ranges, respectively. Note that the recording interval setting is limited.
See: "About the Recording Interval" (p .70)
Setting options:( ∗ : default setting)
Int∗
Use the instrument's internal compensatio n.Select this when connecting th e thermocouple
(or compensating leads) directly to the instrument. Measurement accuracy is the sum of
the temperature measurement accuracy and the RJC accuracy.
Ext Use an external RJC method i nstead of th e instrument's internal compensation.
Use this setting when connecting an external reference junction compensation
device (0°C ice water, etc.).The instrument measurement accuracy is equivalent
to the temperature measurement accuracy.
Temperature Measurement
Range
(Depends on thermocouple
type)
• With type B, the display
shows 0 to 400°C, but accuracy is not guaranteed.
• The K temperature measurement range for the LR8515 is
-200°C to 999.9°C.
K
-200°C to 1350°C
J
-200°C to 1200°C
E
-200°C to 1000°C
T
-200°C to 400°C
N
-200°C to 1300°C
R
0°C to 1700°C
S
0°C to 1700°C
B
400°C to 1800°C
W
0°C to 2000°C
3.3 Input Channel Settings
Temperature Measurement Settings (using thermocouples)
Follow this procedure to configure thermocouple temperature measurement channels.
Make these settings on the [CH] screen.
See:"Key Setting Procedure" (p .73)
Page 89
77
If Thermocouple Measurement Range is Exceeded, or If
the Range's Measurement Range Is Greatly Exceeded
• Example: Using a type T thermocouple with range -200 to +400°C
When measurements are outside of the range of the thermocouple,
the waveform saturates and clings to the top of the screen as
shown at the right.
• If the range's measurement range is greatly exceeded, the value
display and cursor value will indicate "OVER" or "-OV ER ," and calculation values and save data will be replaced with a valu e from
the table below.
• When burn out detection is enabled, measurement resul ts that fall
outside the thermocouple's measurement range or the range's
measurement range may be treated as a burn out event. (p. 76)
Input type Input range +OVER value -OVER value
thermocou
ple
100°C
327.67 -327.68
500°C
1638.4 -1638.4
1000°C
2000°C
3276.7 -3276.8
[°C]
1000
400
0
-200
-1000
3.3 Input Channel Settings
About Burn Out Detection
• When burn out detection is enabled, the instrument detects wiring breaks by outputti ng a minuscule current every recording interva
• Since the detection process uses different timing
affect measured values.
• When using the same recording interval on the LR8510 or LR8511, the cutoff frequency when
burn o
ut detection is enabled is higher than when the setting is d isabled, red ucing no ise rejectio n
effectiveness.
See: "Cut-off frequency" (p .290)
• When measuring the range's positive full-scale temperature, bu
the thermocouple's resistance value exceeds the applicable value listed below. When you need to
string a long thermocouple for use with burn out detectio n enabled, take steps to avoid this phenomenon, for example by using a th
thermo
cou
Reference: When measuring temperature close to the positive full-scale value in the K 100 C range
hile using a thermocouple with a wire diameter of 0.32 mm, a wiring length of about 25
w
m or more may trigger burn out detection.
K 310 5400 960 2940
ple
J 470 4150 - 200
E 450 5970 - 570
T 270 5440 5820 5440
N 270 1470 - 590
R 50 1040 - 580
S 50 120 - 1300
B - - - 350
W 220 910 - 250
l during thermocouple measurement.?
than measurement, this operation does not
rn out detection may be triggered if
ick wire diameter.
Range
100 ℃ f.s. 500 ℃ f.s. 1000 ℃ f.s. 2000 ℃ f.s.
Unit::
Ω
3
Chapter 3 Settings
3
Page 90
78
1 Select the input unit (UNIT1 to 7 and channel
(1-1 to 7-15), and check the box to enable the
channel.
2 Select [Rtd].
3 Select the appropriate temperature measure-
ment range.
4 Select the type of RTD to be used.
5 Select the wiring method.
Setting options:( ∗ : default setting)
100°C∗, 500°C, 2000°C
Setting options:( ∗ : default setting)
Pt100
∗, JPt100
Setting options:( ∗ : default setting)
3 Wire∗
3-wire RTD connection configuration
4 Wire 4-wire RTD connection configuration
4
5
: On
: Off
1
The range setting determines
the measurable temperature
range
Temperature measurement limits
are determined by the measurement range selected for each
sensor.
Temperature Measurement
Ranges
(Temperature measurement
range depends on RTD characteristics)
100°C
-100°C to 100°C
500°C
-200°C to 500°C
2000°C
-200°C to 2000°C
Pt100
-200°C to 800°C
JPt100
-200°C to 500°C
2
3
[°C]
1000
800
0
-200
-1000
When the RTD measurement range is exceeded, or when a
measured value far exceeds the range limit (range label)
• Example: Using a type Pt100 RTD with range -200 to +800°C
When a measured value exceeds the measurement range of the
RTD and far exceeds the range limit (range label), the w aveform
saturates at the top of the screen, as shown at the right.
• When a measured value far exceeds range limit (range label),
"OVER" or "-OVER" is displayed in place of numerical/cursor values, and the following values are applied to calculations and data
storage.
Input type Input range +OVER value -OVER value
RTD
100°C 327.67 -327.68
500°C 1638.4 -1638.4
2000°C 3276.7 -3276.8
3.3 Input Channel Settings
Temperature Measurement Settings (for RTDs)
Follow this procedure to configure resistance temperature detector (RTD) measurement
channels. Make these settings on the [CH] screen.
See: "Key Setting Procedure" (p .73)
Page 91
79
1 Select the input unit (UNIT1 to 7) and channel
(1-1 to 7-15), and check the box to enable the
channel.
The measurement setting applies to the two
tem
perature and humidity inputs for the
LR8514 and to the four temperature, humidity,
fungal index, and fungal growth projection
inputs for the LR8520.
2 The input type is fixed to temperature, and the
measurement range is fixed to 100°C.
-10
0°C to 100°C
: On
: Off
1
* The range is fixed at [100% f.s.].
2
*
When a measured value far exceeds the range limit (range label)
"OVER" or "-OVER" is displayed in place of numerical/cursor values, and the following values
are applied to calculations and data storage.
Input type Input range +OVER value -OVER value
Temperature 100
°C 3276.7 -3276.8
3.3 Input Channel Settings
T emperature Measurement Settings (When LR8514 or LR8520 is used)
Enable this channel setting for temperature measurement with the LR8514 Wireless
Humidity Logger, R8520 Wireless Fungal Logger. Make these settings on the [CH]
screen.
See: "Key Setting Procedure" (p .73)
3
Chapter 3 Settings
3
Page 92
80
1 Select the input unit (UNIT1 to 7) and channel
(1 to 7), and check the box to enable the channel.
2 Select [Humid].
: On
: Off
1
* The range is fixed a t [100% f.s.].
2
*
When a measured value far exceeds the range limit (range label)
"OVER" or "-OVER" is displayed in place of numerical/cursor values, and the following values
are applied to calculations and data storage.
Input type Input range +OVER value -OVER value
Humidity 100%RH 3276.7 -3276.8
1 Select the input unit (UNIT1 to 7) and channel
(1-1H to 7-2H), and check the box to enable the
channel.
The measurement setting applies to the two
tem
perature and humidity inputs for the
LR8514 and to the four temperature, humidity,
fungal index, and fungal growth projection
inputs for the LR8520.
2 The input type is fixed to temperature, and the
measurement range is fixed to 100°C.
: On
: Off
1
2
3.3 Input Channel Settings
Humidity Measurement Settings (When LR8511 is used)
Enable this channel setting for humidity measurement with the optional Z2000 Humidity
Sensor. Make these settings on the [CH] screen.
See: "Key Setting Procedure" (p .73)
Humidity Measurement Settings (When LR8514 or LR8520 is used)
Enable this channel setting for humidity measurement with the LR8514 Wireless Humidity Logger, R8520 Wireless Fungal Logger. Make these settings on the [CH] screen.
See: "Key Setting Procedure" (p .73)
Page 93
Resistance Measurement Settings
1 Select the input unit (UNIT1 to 7) and channel
(1-1 to 7-15), and check the box to enable the
channel.
2 Select [Resist].
3 Select the appropriate measurement ampli-
tude range.
Setting options:( ∗ : default setting)
10 Ω
∗, 20 Ω, 100 Ω, 200 Ω
: On
: Off
1
2
3
When a measured value far exceeds the range limit (range label)
"OVER" or "-OVER" is displayed in place of numerical/cursor values, and the following values
are applied to calculations and data storage.
Input type Input range +OVER value -OVER value
Resistance
10 Ω 16.3835 -16.384
20 Ω 32.767 -32.768
100 Ω 163.835 -163.84
200 Ω 327.67 -327.68
Make these channel settings for resistance measurement.
Make these settings on the [CH] screen.
See: "Key Setting Procedure" (p .73)
When measuring an inductive load, for example from a wire-wound resistor, the instrument’s response may not be fast enough when the inductor
value
is 50 mH or greater, preventing accurate measurement.
81
3.3 Input Channel Settings
3
Chapter 3 Settings
3
Page 94
82
1 Select the input unit (UNIT1 to 7) and channel,
and check the box to enable the channel.
2 Select [Count].
3 Select the integration mode (Count Mo).
4 Select the basis of measurement (Slope).
5 Select the High/Low reference (threshold) val-
ues.
6 Select a filter setting.
Setting options:( ∗ : default setting)
Add
∗
Counts the number of pulses acquired from
the start of measurement.
Inst Counts the number of pulses acquired dur-
ing each recording interval. The pulse count
i
s reset at the beginning of each recording
interval.
Setting options:( ∗ : default setting)
↑∗
Counts the number of L - H transitions.
↓
Counts the number of H - L transitions.
Setting options:( ∗ : default setting)
1V
∗
Judge 1.0 V or higher as HIGH, and 0 to
0.5 V as LOW.
4
V
Judge 4.0 V or higher as HIGH, and 0 to
1.5 V as LOW.
Setting options:( ∗ : default setting)
Off
∗
Filter is disabled.
On
Filter is enabled. Prevents incorrect
counts due to relay contact chatter
(noise).
Totalized
[Add]
Instantaneous
[Inst]
Detec-
tion leve
L
H
1
: On
: Off
23
4
5
6
When a measured value far exceeds the range limit (range label)
"OVER" or "-OVER" is displayed in place of numerical/cursor values, and the following values
are applied to calculations and data storage.
Input type Input range +OVER value -OVER value
Integration 1000Mc 2147483647 -
3.3 Input Channel Settings
Integration (Count) Measurement Settings
Configure these settings for each pulse channel receiving input from a pulse output
device such as a watt-hour or flow meter. Make these settings on the [CH] screen.
See:"Key Setting Procedure" (p .73)
Page 95
83
3.3 Input Channel Settings
• Use the scaling function to display integrated pulse counts as the corresponding physical units (such as Wh or VA) of the measurement
p
arameter (p. 95).
• The counter saturates at 1,073,741,823 counts. If you expect to
exceed this count, we recommend measuring with the Integration
Mode (Count Mo) set to Instantaneous (Inst), and summing later with
a spreadsheet program.
3
Chapter 3 Settings
3
Page 96
84
1 Select the input unit (UNIT1 to 7) and channel,
and check the box to enable the channel.
2 Select [Revolve].
3 Set the number of pulses per rotation output
from the sensor.
The range is automatically determined by this setting.
4 Select the basis of measurement (Slope).
5
Select the High/Low reference (threshold) values.
6 Select a filter setting.
Setting options:( ∗ : default setting)
1∗ to 1000
Setting options:( ∗ : default setting)
↑∗
Counts the number of revolutions based on
L - H transitions.
↓
Counts the number of revolutions based on
H - L transitions.
Setting options:( ∗ : default setting)
1V
∗
Judge 1.0 V or higher as HIGH, and 0 to
0.5 V as LOW.
4
V
Judge 4.0 V or higher as HIGH, and 0 to
1.5 V as LOW.
Setting options:( ∗ : default setting)
Off
∗
Filter is disabled.
On
Filter is enabled. Prevents incorrect counts
due to relay contact chatter (noise).
0 V
L
H
5000 r/s (n=1)
1
: On
: Off
2
3
4
Increment/decrement by 1
Increment/decreme nt by 10
5
6
When a measured value far exceeds the range limit (range label)
"OVER" or "-OVER" is displayed in place of numerical/cursor values, and the following values
are applied to calculations and data storage.
Input type Input range +OVER value -OVER value
Revolution 5000r/s 2147483647 -
3.3 Input Channel Settings
Revolution Measurement Settings
Configure these settings for each pulse channel on which you will be counting pulses
corresponding to revolutions, such as output from a rotary encoder or tachometer. The
revolution measurement is obtained by counting the number of pulses input per second.
Make these settings on the [CH] screen.
See:"Key Setting Procedure" (p .73)
Page 97
85
Revolution Measurement Theory
Pulse count is measured using the Memory HiLogger's internal 100 ms sampling interval.
The revolution rate (r) per second during time t [s] is obtained by dividing the number of pulses
from (t-1) to t [s] by the number of pulses per revolution.
0
100 ms 200 ms
1 s 2 s
Pulse Count
P20P10P2P10
Pulses per revolution
Pulse count at t
s
minus pulse count at (t -1)
s
r [r/s] =
(r/s: Revolutions per second)
Example: Pulses per revolution = 4
When the number of pulses counted in one second is P
10
= 1000 c,
and the number of pulses counted in two seconds is P
20
= 2000 c,
then the revolution rate (r/s) at t=2s (r
t=2
) can be obtained.
r
t=2
=
4
2000
− 1000
= 250 [r/s]
Exception: When time ts is less than one second
The pulse count at (t -1)
s
(whole seconds) cannot measured, so 10 times the pulse count between
(t -0.1)
s
and ts serves and the pulse count for one second to obtain the revolution rate.
As a result, revolution measurements when t is less than one second are scattered.
Pulses per revolution
Pulse count at t
s
minus pulse count at (t -0.1)
s
r [r/s] =
x 100
3.3 Input Channel Settings
3
Chapter 3 Settings
3
Use the scaling function to display integrated pulse counts as the corresponding physical units (such as Wh or VA) of the measurement parameter (p. 95).
Page 98
86
1 Select the input unit (UNIT1 to 7) and channel,
and check the box to enable the channel.
2 Select [Logic].
3 Select the High/Low reference (threshold) val-
ues.
4 Select a filter setting.
Setting options:( ∗ : default setting)
1V
∗
Judge 1.0 V or higher as HIGH, and 0 to
0.5 V as LOW.
4
V
Judge 4.0 V or higher as HIGH, and 0 to
1.5 V as LOW.
Setting options:( ∗ : default setting)
Off∗
Filter is disabled.
On
Filter is enabled. Prevents incorrect
counts due to relay contact chatter
(noise).
1
2
: On
: Off
3
4
3.3 Input Channel Settings
Logic Measurement Settings
Make these channel settings for logic measurements.
Make these settings on the [CH] screen.
See:"Key Setting Procedure" (p .73)
Page 99
Current Measurement Settings
1 Select the input unit (UNIT1 to 7) and channel,
and check the box to enable the channel.
2 Select the clamp sensor being used.
3 Slelect the appropriate measurement ampli-
tude range.
Setting options:( ∗ : default setting)
9657-10,9669,9675*,9695-02,CT6500,CT7044,
CT7045,CT7046,CT7631,CT7636,CT7642,CT7731,
CT7736,CT7742,CT9667,CT9691-90,CT9692-90,
CT9693-90
Setting options:( ∗ : default setting)
9657-10 500 mA∗,5 A
9669 1000 A
∗
9675 500 mA∗,5 A
9695-02 5 A∗,50 A
CT6500 50 A∗,500 A
CT7044 50 A∗,500 A?5000 A
CT7045 50 A∗,500 A,5000 A
CT7046 50 Av,500 A,5000 A
CT7631 10 A∗,100 A
CT7636 20 A∗,200 A
CT7642 200 A∗,2000 A
CT7731 10 A∗,100 A
CT7736 20 A∗,200 A
CT7742 200 A∗,2000 A
CT9667 500 A∗,5000 A
CT9691-90 10 A∗,100 A
CT9692-90 20 A∗,200 A
CT9693-90 200 A∗,2000 A
1
2
: On
: Off
3
Make these channel settings for current measurements.
Make these settings on the [CH] screen.
See:"Key Setting Procedure" (p .73)
87
3.3 Input Channel Settings
3
Chapter 3 Settings
3
Page 100
88
4 Select the zero-suppression setting.
5 Select the clamp measurement method.
6 Select a filter setting.
Setting options:( ∗ : default setting)
On∗
Suppresses values of less than 10
counts in each range.
O
ff
Enables display of values of less
than 10 counts.
(For zero-adjustment purposes during DC measurement)
Setting options:( ∗ : default setting)
Int
∗
Records the instantaneous value
for each recording interval.
Avg
Takes measurements at an interval
of 0.5 sec. and records the average
value for each recording interval. (If
the recording interval is less than 1
sec., the instrument will record the
instantaneous value instead.)
Max
Takes measurements at an interval
of 0.5 sec. and records the maximum
value for each recording interval. (If
the recording interval is less than 1
sec., the instrument will record the
instantaneous value instead.)
Setting options:( ∗ : default setting)
Off
∗
Disables the filter, allowing
current measurement including
high-frequency components.
On Allows you to cut unnecessary
high-frequency components
when performing 50 Hz/60 Hz
current measurement.
5 6
4
3.3 Input Channel Settings
• The Model LR8513 Wireless Clamp Logger firmware version 1.40 or
later is required to be installed to use the following clamp sensors:
CT7044, CT7045, CT7046, CT7631, CT7636, CT7642, CT7731,
CT7736, CT7742, or CT9667.
• The Model LR8513 Wireless Clamp Logger firmware version 1.30 or
later is required to be installed to use the instrument with the clamp
measurement method setting set to [MAX]
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