Power Measuring Instruments
Investigate All Your Power Quality Problems
■ Remote control and data collection via LAN modem
■ A full range of clamp sensors
(Seven models with ratings from 5 to 5000 A AC)
■ 9624 PQA-HiVIEW, 9624-10 PQA-HiVIEW PRO software for flexible PC analysis
■ Power waveform observation ■ Abnormal waveform recording
■ Harmonic measurement ■ Flicker measurement
■ Power measurement
All in a single unit !
9624-10 PQA-HiVIEW PRO
Compatible to 400Hz Circuits!
Capture all power anomalies without fail!
Problems with power quality are all around us
Have you ever experienced any of the following ?
Flickering lights
Light bulbs burn out quickly
Electronic office equipment does not function properly
Sometimes devices operate abnormally
Overheating in facilities using condensers fitted with
• 3E (electrical overload, reverse phase, or phase loss) relays
sometimes trip
These types of problems and others are often due to degraded power quality.
Discovering the cause can be difficult
The quickest way to solve power problems is to have a clear
understanding of the cause, and be able to determine where the
phenomenon occurred. However, it is not always possible to
accurately grasp all of the various types of anomalies that may
occur on power lines, even when using recording or harmonic
analysis devices to investigate them.
Dedicated measuring instruments are required in
order to accurately grasp these kinds of anomalies.
Fully identify the many phenomena hiding in your power lines
Overlooking the smallest of power anomalies
can lead to enormous financial loss. Checking
the quality of your power lines is the best way to
prevent problems before they occur.
● Transient Overvoltage (Impulse)
Phenomenon :
Occurs due to lightning or circuit breaker/relay
contact damage or closure. Often involves
radical changes in voltage with high voltage
Damage :
In the vicinity of the event, high voltage often
damages equipment power supplies or causes
devices to reset.
● Voltage Dip
Phenomenon :
Caused by momentary voltage drops resulting
from large rush current in loads, such as when
starting up a motor.
● Instantaneous interruptions
Phenomenon :
An instantaneous or short/long term power
supply interruption caused by accidents at the
power company (such as interruption of power
transmission due to lightning strike) or tripping
of breakers due a power supply short.
Damage :
Thanks to the increasingly widespread
adoption of uninterruptible power supplies, equipment such as computers
is increasingly protected against this problem. However, it may still cause
other devices to stop operating or reset.
● Harmonics
Phenomenon :
Often occurs due to voltage/current waveform
distortion when a semiconductor control device
is used in a device's power supply.
Damage :
When harmonic components become too
large, they can cause serious malfunctions, such as overheating in motor
transformers, or burn-out of reactors connected to phase advance capacitors.
Damage :
The drop in voltage may cause devices to stop
operating or reset.
● Unbalance factor
Phenomenon :
● Voltage Swell
Phenomenon :
Caused by lightning strikes or opening/closing
power lines with heavy loads, causing the
voltage to swell momentarily.
Damage :
The surge in voltage may damage equipment
power supplies or cause devices to reset.
● Flicker (IEC, ∆V10)
Phenomenon :
Caused by blast furnaces, arc welding, and
thyristor-controlled loads, and involving
regularly repeated voltage impulses spanning
one or more cycles.
Damage :
Because this phenomenon is cyclically repeated, it may cause lights to
flicker or devices to malfunction.
Voltage/current waveform distortion and voltage drops
or voltage phase reversals can occur when the load
on a particular power line phase increases due to load
fluctuations or imbalances.
Damage :
Voltage imbalance, reverse phase voltage, and
harmonics can result in events such as uneven motor
rotation, tripping of 3E breakers, and overheating due
to transformer overloading.
The 3196 can
measure, record, and
analyze all of the above
Supports data analysis with a wide range of functions!
The 3196 measures, records and analyzes power line quality
Full compatibility to 400Hz circuits
(Please specify inspection data sheet requirements for 400 Hz test points at time of order.)
■ Supports single-phase 2-wire, single-phase 3-wire, three-phase
3-wire and three-phase 4-wire systems. Further, the unit has an
extra input channel providing enhanced analysis capabilities.
An isolated CH4 terminal is provided for AC and DC measurement.
• Neutral line measurement you can use for ground fault detection!
• Analyze DC power supplies
• Performs simultaneous analysis of two isolated systems, such as single
phase and three phase lines
■ Simultaneous measurement and continuous processing
All data are measured simultaneously and processing is performed
continuously, so important fault data is not missed.
Further, transient overvoltages up to 2000 V with durations as low as 0.5 µs
are captured without fail.
■ Seven different display languages
■ Comes equipped with ∆-Y and Y-∆ conversion functions
Select a display language from Japanese, English, German, French, Spanish,
Italian or Chinese .You can switch between the different display languages
to suit your location.
■ Wide selection of clamp on current sensors
The unit uses a TFT color LCD screen, providing bright display with a wide
viewing angle.The color display provides easy viewing of waveforms, both
indoors and out.
Supports ∆-Y voltage conversion for three-phase, 3-wire systems, and Y-∆
voltage conversion for three-phase, 4-wire systems. Selectable display of interline voltage and phase voltage.
In addition to clamp-on current sensors Models 9660 (100 A), 9661(500 A),
9669 (1000 A), and 9667 (5000 A, flexible), HIOKI also provides the 9694
(5 A) sensor, which is ideal for CT terminal measurement, as well as two
other clamps for 5A leak measurement, Models 9657-10 and 9675, to suit
every application need.
■ Three-phase voltage wiring adapter (optional)
Use the wiring adapter to simplify voltage wiring procedures.
• 9264-01 for three-phase, 3-wire systems
• 9264-02 for three-phase, 4-wire systems
* The 9264-01/02 Wiring Adapters are designed to reduce voltage cord wiring to
a bare minimum for use with specific power lines. Do not use with installations
other than those specified.
■ 6.4-inch color LCD
■ Extended measurement of up to one month with internal memory
The unit's internal memory (13 MB) supports up to one month of
continuous recording.
*The amount of time available for continuous measurement can be checked when
setting the measurement interval.
*Use a PC card to record at shorter measurement intervals over longer periods in
conjunction with the internal memory.
for measuring DC voltage
(Usage capacity)
Internal Memory
Time Series: 5MB Fixed
Events: 8MB Fixed
CH4 terminal
Storage of Events Interval
Max. 100
(approx. 8MB)
When storing
PC Card
100 (approx. 8MB)
Max. 1000
(approx. 81MB)
Max. 1000
(approx. 81MB)
Saving RMS only Saving RMS + harmonics
Save all data
2 h 01 m
5 days 1 hour
8 h 29 m
5 h 45 m
31 days
21 days 5 h
14 days 9 h
31 days
8 days 8 h
5 days 16 h
31 days
2 days 13 h
1 days 17 h
14 h 40 m
41 m
[119 days]
[36 days]
*When recoriding Time Series data, select MAX/MIN/AVE
*Refer to the specifications for details regarding the recordable items.
*Max. continuous save: 31 days
*During the measurement period, all dips, swells and interruptions are calculated.
■ PC card slot
Flash ATA cards up to 528 MB can be used to allow
more detailed data collection.
Compact flash cards can also be used with an adapter.
■ LAN and RS-232C interfaces
The 3196 features an HTTP server to enable easy
configuration and data analysis through a Web
browser from a remote location.
■ Synchronize the 3196 clock
Connect the optional XD112 GPS Box to make sure
the time recorded for measured events is based on the
global standard time.
■ External event input/output terminals
Event output :
Outputs a signal when events occur-either as an
alarm or device control signal.
Event input :
Accepts a trigger signal to initiate measurement.
Set includes antenna
and RS-232C cable
■ Optional printer for easy hard copy output
Connect the optional 9670 printer to the RS-232C ■ Two types of carrying case available (optional)
Choose from the soft (9339) or hard (9340) carrying
terminal for easy hard copy output of screens.
case and measure while the 3196 is safely stored.
The top side of the
case holds the 3196.
■ Small and Lightweight
Compact A4 size, and weighing only 2.25 kg
(79.4 oz).
Printing method : Thermal line dot
Printing width : 72 mm (2.83")
Printing speed : 47.5 mm/sec (1.87"/sec)
Power supply : 9671 AC ADAPTER or the BATTERY PACK
Dimensions and mass : 119 (4.69") × 77 (3.03") × 174 (6.85") mm, approx. 500 g (17.6 oz.)
Model 9339
soft case
The bottom side of the
case holds accessories.
Real-time data display for power supplies
Display waveform, vector, DMM, and harmonic data in real-time
The VIEW screen displays voltage/current waveforms, vector diagrams, DMM values (voltage, current, and
power), and harmonic data. All data can be measured and processed simultaneously, and power conditions
such as distortion factor, K factor, and the unbalance factor for three-phase lines can be monitored using the
various data displays.
Connect the 3196 to a power source to display power line data in real-time
All power line conditions can be monitored from the VIEW screen!
■ Display data in real-time
-1. Waveform display (voltage/current display, 4-channel voltage
display, 4-channel current display)
-2. Vector display
-3. DMM display (power, voltage, and current displays)
-4. Harmonics (graph and list displays)
■ Power management through a rich array of information
-1. Check the distortion of power waveforms using electronic devices and electrical overloads.
-2. Manage the phase of power lines. Check the phase and wiring of the VT (PT) and CT
-3. Manage, maintain and check the unbalance factor, peak values, and distortion factor of
power lines.
-4. Assess and develop countermeasures to prevent the occurrence of harmonic power flow.
Check for proper instrument connection using the numerical value or vector display
Connect the 3196 to the power line to be
monitored while viewing the connection
diagram.Upon connection, you can confirm
voltage, current, and power values. Further,
through the vector display, you can verify
proper connection of clamp-on current
sensors to the VT (PT) and CT terminals.
View the phases
Waveform display
DMM display
This displays the voltage and current waveforms for each phase.
Waveform display makes it easy to understand distortion conditions
that (as with harmonics) are difficult to grasp from numerical values
This displays detailed data for voltage, current, and power.
View the data necessary for power management or maintenance and
inspection of power lines at a single glance.
Select a waveform display
range of 2, 4, 10, or 12
Display either dual screens
for voltage and current, or
waveforms for individual
voltage and current phases.
Detailed values for
voltage, current and
power are displayed.
The cursor value is displayed.
Vector display
Harmonics display
This displays the voltage and current vectors for each phase, as well as
RMS values and phase angles as numerical values.
Easily check the phase of three-phase lines and harmonics.
This displays harmonics and inter-harmonics data in a graph or list.
You can also display the phase difference for each harmonic order, and
work out the current direction for harmonics.
You can select all of the
connected channels.
Displays the unbalance
factor when measuring
three-phase power lines.
(For 3P3W3M and 3P4W
Display the fundamental voltage waveform for the 1st order (U1, U2, and U3) as
a phase angle of 360˚ as a standard.
Ideal for checking three-phase power lines.
The harmonic
order cursor
value is
Inter-harmonics display
(light blue)
Detailed numerical data for up to the 50th harmonic
order is displayed in a list.
Capture anomalies while using time series measurement to monitor power lines
Simultaneous time series monitoring for RMS fluctuations, voltage fluctuations, harmonics fluctuations, and flickering
RMS fluctuation, voltage fluctuation, harmonic fluctuation, and flicker (IEC and ∆V10) time series data is
displayed on the TIME PLOT screen. In addition to cursor measurement, you can enlarge events that occur in
the voltage fluctuation event screen if a voltage dip, swell, or instantaneous interruption event occurs during
the measurement period.
Simply set the interval and start time series measurement to display events in the fluctuation graph
Time series fluctuation results are displayed in the TIME PLOT screen
■ All measurement results are automatically recorded
-1. RMS fluctuation (dual screen display selection)
-2. Voltage fluctuation (interval and event displays)
-3. Harmonic fluctuation (harmonics and inter-harmonics displays)
-4. Flicker (graph and list displays)
• Pst and Plt measurement conditions according to IEC standards
• ΔV10 measurement (according to Japanese domestic guidelines)
Continuous data calculation processing of all data without fail!
■ Calculation method for measured data
-1. RMS fluctuations/Harmonic fluctuations : Values are calculated continuously
every 200 ms. The maximum, minimum, and average values are those applicable within the
specified interval.
-2. Voltage fluctuations : Values are calculated for a single waveform shifted by a half wave.
The maximum and minimum values are those applicable within the specified interval. Detailed
measurement of voltage fluctuations is possible because values are calculated every half wave.
-3. Flicker : Values are calculated in accordance using calculation methods defined in the
IEC and ∆V10 standards.
In addition to displaying the various measurements in fluctuation graphs, the 3196 also displays the maximum,
minimum, and average values for each specified interval.
Further, when the 3196 captures a power anomaly, an event marker appears in the upper part of the graph.
RMS fluctuation display
Harmonic fluctuation display
When a power anomaly occurs during measurement, the event is indicated
using the ▼ marker.
items can be
selected for
You can specify display of up to six harmonic orders.
Dual screen
display is
possible for
such as
voltage and
Cursor values are
displayed for the
specified orders.
Cursor values (maximum, minimum, and average values for the specified
interval) are displayed.
Flicker display
Voltage fluctuation display
Cursor values (maximum and minimum values for the specified interval) are
Even when a long
interval is set,
momentary voltage
fluctuations are
accurately captured.
IEC flicker display
Displays the Pst and Plt values as a graph once every ten minutes.
The Pst and Plt cursor
values are displayed.
Markers are displayed in blue. (
▼ marker)
Event display
When an event such as a
dip, swell, or instantaneous
interruption occurs, the time axis
is enlarged on the event screen.
Displays a list of detailed data for Pst and
Plt values once every ten minutes.
Use event data to analyze the cause of power anomalies!
Display the details for power anomalies captured using event triggers
You can capture a variety of power anomalies by setting the individual trigger levels on the event setting screen.
Captured data is displayed in the event list. This enables you to quickly confirm detailed data for phenomena (such
as date/time, waveforms, RMS values, and harmonics), that are the source of problems, and effectively assess the
cause of the problem.
Set event triggers, start measurement → Capture power anomalies → Search list → Display details
Make event trigger settings and start measurement!
1. Select a trigger threshold value that is suitable for the parameter being measured.
Set thresholds along with other settings. You can make threshold settings while monitoring the actual input level, input waveform, and harmonics graph.
Current input level
Threshold setting
You can confirm the current input level.
All trigger settings can be made at once, enabling accurate capture of complex power anomalies.
When using the unit's internal memory to save events, up to 100 events are automatically saved, or up to 1000 events
when using a PC card.
Once measurement is finished, search the event list to confirm detailed data for events-even during measurement
3. Confirm the number of captured events in the
monitor screen.
2. Confirm the details for events in the list screen.
The capture date and event category are displayed.
Select an event with
the cursor and press
the ENTER key
The number of times each event occurred is visible at a glance.
You can also check the events while they are being measured.
Waveform display range:
14 waveforms at 50 Hz
16 waveforms at 60 Hz
Simultaneously display voltage and current waveforms
for instantaneous interruptions.
Shows detailed data for the event that you selected
with the cursor. (Date of occurrence, event type, level,
continuous measurement period)
Transient overvoltages up to 2000 Vpk with durations as low as
0.5 µs are captured without fail.
Confirm values using the cursor.
Transient display range
within 4 ms
transient values
Enlarge the transient waveform display.
Remote measurement is simplified using the HTTP server function
Real-time measurement/control and download measurement data over the Worldwide Web
■ The HTTP server function as a standard feature makes remote measurement even more convenient
You can perform remote observation and control using an ordinary Web browser, such as Internet Explorer, without
the need for special software. Further, you can download measurement data that has been saved onto a PC card.
Using the 3196 and your PC, you can observe power anomalies at remote locations and analyze measurement data
■ Choose from a variety of network measurement plans
By connecting a PC to the 3196, you can set up various types of network measurement systems through a LAN or
RS-232C interface.
Ex. 1. Direct connection with a LAN cable
Ex. 2. Remote connection with a LAN through a hub
Straight cable
Ex. 3. Remote RS-232C connection through a modem
Straight cable
Dial-up network
Straight cable
Transfer Measurement Data to Your PC
Data saved in Binary/Text/BMP formats in the PC Card or internal memory
of the 3196 can easily be transferred to your PC using the freeware Down96,
supplied with your purchase or downloadable from the HIOKI website.
Straight cable
(Compatible with 3196 version 1.21 or later)
Note: To further analyze binary data, use the optional
9624 PQA HiVIEW or 9624-10 PQA HiVIEW Pro
application software.
Ex. 4. Remote RS-232C connection through a modem
Cellular phone
Straight cable
PC Card
View the 3196 screen on your PC as soon as you open the remote application from your Web browser!
1. Enter the IP address for the 3196 on the browser to display the main screen.
2. A display screen and operation keys identical to those for the 3196 appear, allowing full
control of remote operation.
Because the various key operations are identical to those for the 3196, the keys are easy to use.
Click Remote Operation!
Click the event list!
3. Confirm the events that occurred in the list.
Click an event category!
4. Confirm detailed data for events, such as waveforms.
Convenient Feature
5. You can also convert waveform data into text.
Click the waveform data. Microsoft Excel starts, and
you can save the text data for the waveforms.
6. Using the report creation function, you can paste the event screen displayed into Microsoft Word*.
* When Microsoft Word is selected as the Internet Explorer HTML editor;
Compatible with Microsoft Word 97 or later.
Choose from 2 Easy-to-Use Application Software Packages for Further Data Analysis
9624 PQA-HiVIEW & 9624-10 PQA-HiVIEW PRO
■ Viewer function
Use this function to display screens similar to those used for the 3196.
Select from the TIME PLOT screen (voltage fluctuation, RMS fluctuation, harmonic fluctuation, inter-harmonic fluctuation),
event list screen, event data screen (waveforms, vectors, DMM, harmonics, event details), ∆V10 screen(Japanese
standard), or settings screen. In the TIME PLOT screen, and use the two cursors (A and B) to calculate waveforms within a
specified interval.
■ Demand/integral power consumption function
Calculate demand and integral power consumption from TIME PLOT data for effective power.
Measurement data is saved in
binary format
■ Binary CSV format conversion function
PC card
Data processing is quick and
easy using the 9624 PQAHiVIEW software
Convert binary data into CSV format for event
waveforms within the specified range in the TIME PLOT screen
or event waveforms selected in the event waveform screen. Files
saved in CSV format can be used with spreadsheet software on
your PC.
■ Print function
Use this function in each screen to output reports to a printer
connected to your PC.
Data stored on a PC card can be transferred using
remote operations via a LAN or modem
• Use it to create reports
• Use data converted to
CSV format
1.Load measurement data and then select the desired display from the toolbar
1. After loading the data, the possible displays are shown on the toolbar
Screen button
1. Open a file
2. Copy (a screen)
3. Print
4. Event list screen
5. Event data screen
6. TIME PLOT screen
7. ∆V10 screen
8. Integral power consumption screen
9. Demand screen
10. Settings screen
11. Arrange windows
12. A and B cursors
2.Display multiple 3196 screens simultaneously on
your PC, and make calculations and analyses using
■ TIME PLOT screen
This screen enables you to select four different types of data, including RMS fluctuation,
voltage fluctuation, harmonic fluctuation, and inter-harmonic fluctuation data, and display
the data in graphs corresponding to the TIME PLOT screen of the 3196.
■ Spot analysis using the cursor
Conduct spot analysis of time series
data using the A and B cursors.
■ Event list screen
This screen displays an event list
corresponding to the event list on the
Click an event!
Calculations for the details within
the specified interval are displayed.
View power, voltage, and current data at a
single glance in the DMM screen!
■ Event data screen
1. Displays detailed data for 2. Displays nine different screens that
correspond to the VIEW screen on the
the event that you selected
3196, such as the waveform, vector,
in the event list.
harmonics, and DMM screens.
Analyze power consumption and demand using acquired data
■ Integral power consumption analysis and demand analysis screens
These screens allow you to calculate measurement data and display it in the integral power consumption graph or demand graph.
(Use them to display the maximum demand, average demand, and load ratio values.) Further, you can confirm the power data for a specific interval
using the cursor function.
General power
consumption is
Quickly print reports and apply data
■ CSV format conversion function
Convert data displayed in the TIME PLOT or event
waveform screen into CSV format. Converted data can
be used with spreadsheet software on your PC.
Convenient Feature
Specify a range using the A and B cursors, and convert the data
within that range into CSV format.
■ Print function
Print a hard copy of the event list screen, event data screen, ∆V10 screen,
integral power consumption screen, or demand screen, one at a time.
In the TIME PLOT screen, you can collect all of the screens that are
currently open and print them on a single sheet.
Print example: Event waveform screen printed on A4 paper
The interval between the A and B cursors is displayed in red.
Print example: TIME PLOT screen (U-THD RMS fluctuation) printed on A4 paper
9624-10 PQA-HiVIEW PRO (Advanced functions added to the standard Model 9624)
■ ITIC curve display function
■ EN50160 display functions
Make ITIC (CBEMA) curve analyses (limit curve) based
on the power quality control standards of the U.S.A.
(applicable standard is EN50160:1999)
Effectively evaluate and analyze the quality of power according
to EU standards.
✻ Change the upper or
lower limit of the curve
as desired.
■ Downloading from LAN
Data (BINARY/TEXT/BMP) recorded on a PC card or the internal memory of the 3196 can be downloaded via LAN to a personal
computer. (*This can be done without use of the freeware Down96. Measurement on the 3196 must be halted during download.)
■ Report generation function
Choose from 3 types of report generation settings to take care of all the troublesome reporting operations, and either send the data to a
printer or save as a Rich Text file. (Automatic: Output basic items. Individual setting: Select any item for output. Detailed setting: Specify a timeseries graph in details for output.)
■ Positive phase, negative phase, and zero phase function
Recalculate event data captured by 3P4W circuits, and display each component of the voltage/current of the positive phase, negative
phase, and zero phase.
■ Model 9624-10 can be used only in conjunction with a hardware license key.
Please select either USB or Parallel license key when ordering.
9624 /-10 Specifications
(Items in blue ■ symbolize specifications unique to Model 9624-10, and are not available in the standard Model 9624.)
-1. Function specifications
Data loading functions
Data that can be loaded
Maximum data capacity
Data display functions
Demand calculation function
: Binary data recorded using the 3196
SET files (Settings data), ITV files (TIME PLOT data),
EVT files (Event data (lists, voltage and current waveforms,
transient waveforms, numerical values), FLC files (Flicker
data (∆V10, IEC)), TRN files (Transient waveforms),
EN50160. files (EN50160 dasta),
EVENT.EN files (EN50160 Event data)
: Up to 528 MB
Settings :Analysis start time/period : Set the year, month, day, hours, minutes,
and seconds. /1 to 31 days
Demand interval settings : 5, 10, or 30 minutes, 1, 2, 3, 6, or 12 hours
Display method and calculation items :
Demand graph (for consumption only), Average demand (average demand value
for the specified analysis period), Maximum demand (maximum demand value for the
specified analysis period), Load ratio (average demand/maximum demand × 100 [%])
ITIC curve display function
: Plot event points on limited value curve (points indicating
Display function
swell/dip/interruption occurrence period and voltage)
SYSTEM display function
Screen display
: SYSTEM (settings) content screen
TIME PLOT display function
Screen display
: RMS fluctuation, voltage fluctuation, harmonic
fluctuation, inter-harmonic fluctuation
Number of display screens : Up to 4 screens
Cursor function
: A and B cursors (interval calculation function provided)
EVENT list display function
Screen display
: EVENT list content display
Display method selection : Order events occurred in, or order of priority
EVENT data display function
Display function
: Display the event data selected in the EVENT list
display screen
Screen display
: Display one of the following screens ((1) to (4))
(1)Waveform display :Select from the voltage/current waveform, 4-channel
voltage waveform, 4-channel current waveform, and
voltage/transient overvoltage waveform displays.
(2)Vector display
:Select from the harmonic RMS value and phase angle
(3)DMM display
:Displays power, voltage, and current values.
(4)Harmonics display :Select from the harmonics bar graph and list displays.
Cursor function
: A and B cursors (interval calculation function provided)
for the waveform display screen
Positive/ Negative/ Zero phase calculation function
:Display voltage and current of the positive phase, negative
phase, and zero phase.(In vector display screen, this is conducted
during the 3P4W wiring analysis.)
Flicker graph Display function
Screen display
: ∆V10 Flicker graph or IEC Flicker graph
Cursor function
: A and B cursors (interval calculation function provided)
EVENT voltage fluctuation graph Display function
Cursor function
: A and B cursors (interval calculation function provided)
Integral power consumption calculation function
Percent of nominal voltage: Maximum swell voltage or residual voltage ratio against
official voltage
Violation count display
: Number of upper-limit violations, number of lower- limit
violations, and total number of events
Limit curve selection
: ITIC curve or user-defined curve (any setting)
EN50160 display function
Screen display
Copy function
Copy content
Print function
: Saves the various screens in BMP format
Print format: Prints screen images, Paper size: A4 and Letter, Print preview: Yes
CSV format conversion function
Screens that can be converted : TIME PLOT and event waveform screens
Conversion settings
: Specified interval conversion (TIME PLOT screen only)
Conversion setting selection (TIME PLOT screen only)
Report creation function
Output format
: Output setting contents can be printed, or saved as a rich text file.
(1) Automatic output : RMS voltage fluctuation graph, worst case, maximum/minimum
list, total harmonic voltage distortion graph, Overview and
Signaling data of EN50160, and all event detail list.
(2) Arbitrary output : Includes, in addition to automatic output, RMS current
fluctuation graph, transient waveform, total harmonic current
distortion graph, Harmonic and result classification data of the
EN50160, and settings list.
(3) Detailed output : Voltage fluctuation, RMS fluctuation, harmonics fluctuation, and
interharmonics fluctuation.
Settings save function
Save user-defined curves, setting for sorting measurement result, report setting, etc.
Download function
Download data from the 3196 via LAN.
-2. Basic specifications
Supplied accessories
Operating environment
Settings : Analysis start time/period : Set the year, month, day, hours, minutes,
and seconds. /1 to 31 days
Display method and calculation items :
Integral power consumption graph, Integral power consumption (consumption +
regeneration, and cursor measurement functions provided), Maximum integral power
consumption (final integral power consumption for the specified analysis period)
: Overview/Harmonic/Signaling/Measurement result sorting
: CD-R × 1
: PC/AT-compatible devices
: English or Japanese versions of the following
• Microsoft Windows 95 (9624 only, OSR2 or later versions
only supported, Internet Explorer 3 or later required)
• Microsoft Windows 98, Me, NT 4.0, 2000 or XP
: At least 128 MB
3196 Specifications
-2. Basic specifications
-1. Measurement and recording items
Recording item
Transient overvoltage
Voltage swell
Voltage dip
Instantaneous interruption
RMS voltage
RMS current
Voltage peak
Current peak
Effective power
Apparent power
Reactive power
Power factor/Displacement power factor
Power P&Harm ALL_D
Recording item
Voltage unbalance factor
Current unbalance factor
Harmonic voltage
Harmonic current
Harmonic power
Harmonic voltage-current phase difference
Inter-harmonic voltage
Inter-harmonic current
Total harmonic voltage distortion factor
Total harmonic current distortion factor
Total inter-harmonic voltage distortion factor
Total inter-harmonic current distortion factor
K factor
Flicker (∆V10/Pst, Plt)
Power P&Harm ALL_D
* Select from a total of six different patterns when recording data. These consist of three available data patterns
(Power, P&Harm, or ALL DATA), combined with two patterns, AVE and ALL (maximum, minimum, and average), of
detailed data for each measurement item.
Power quality measurement
standards conformance
: IEC61000-4-30:2002, IEEE1159,
Clock functions : Auto calendar, auto leap year, 24-hour clock
Real-time clock accuracy : Within ±0.3 s/day (when the 3196 is turned on)
Internal memory capacity for data : 13 MB (time series and event data)
Maximum recording interval : 1 month (internal memory)
Measurement time control : Manual/Specified time
Time series data settings
Recording item setting patterns : Power, P&Harm, and ALL DATA
MAX/MIN/AVE values
: AVE values, ALL values (maximum,
Interval selections
Event settings
Event settings
minimum, and average values)
: 1, 3, 15, or 30 seconds, 1, 5, 10, 15, or
30 minutes, 1 or 2 hours
: All measurement settings except
flicker and inter-harmonics
Event threshold value setting : OFF or desired numerical value
Maximum number of recording events : 100 (internal memory)
(Simultaneous events count as 1 event.)
Power supply : 12 V DC from the 9458 AC ADAPTER or 9459 BATTERY PACK
Maximum rated power : 40 VA
Continuous operating time with battery : Approximately 30 minutes
(9459 battery pack)
External dimensions : Approximately 298W (11.73") × 215H (8.46") × 67D
(2.64") mm (not including projections)
Mass : Approximately 2.25 kg (79.4 oz.) (including 9459 battery pack)
3196 Specifications
(Guaranteed accuracy period : 6 months / Certain specifications vary when measuring 400Hz circuits. Please inquire with your HIOKI distributor for details.)
-3. Input specifications
Measurement line types : Single-phase 2-wire, Single-phase 3-wire, Three-phase 3wire (3P3W2M, 3P3W3M) or Three-phase 4-wire, plus one
extra input channel
Input channels
: Voltage : 4 channels (U1 to U4) (channel U4 can be
switched between AC and DC)
Current : 4 channels (I1 to I4)
Input methods
: Voltage between U1, U2, and U3 without inter-channel
Voltage between U1 to U3 and U4 with inter-channel
Current input by clamp-on sensor
Input resistance
: Voltage : 4 MΩ ±10% (differential input)
Current : 200 kΩ ±10%
Measurement method : Simultaneous digital sampling of voltage and current
PLL synchronization (automatically switches to fixed clock during
dropouts, so sampling is never interrupted)
PLL synchronization channel source : Voltage at either U1, U2, or U3
PLL synchronization frequency range : 42.5 to 69 Hz
Sampling frequency :
For calculations (including DC measurement) : 256 points/cycle
: 256 points/8 cycles (for 400 Hz)
For harmonic and inter-harmonic analysis : 2048 points/10 cycles (for 50 Hz)
2048 points/12 cycles (for 60 Hz)
2048 points/80cycles (for 400 Hz)
For transient overvoltage (impulse)
: 2 MHz
A/D converter resolution :
For calculations (including DC measurement) : 16 bits
For transient overvoltage (impulse)
: 12 bits
Voltage measurement range :
Channels 1 to 3
: 150.00, 300.00, 600.00 Vrms
Channel 4
: 60.000, 150.00, 300.00, 600.00 Vrms
±60.000, 600.00 V pk (DC measurement)
Voltage crest factor : 3 or less
Current measurement range :
With Model 9694 sensor : 5.0000, 50.000 Arms
With Model 9660 sensor : 50.000, 100.00 Arms
With Model 9661 sensor : 50.000, 500.00 Arms
With Model 9667 sensor : 50.000, 500.00 A or 500.00 A, 5.0000 kArms
With Model 9669 sensor : 100.00 A, 1.0000 kArms
Current crest factor : 4 or less
-4. Measurement specifications
(For specifications when measuring 400Hz circuits, please inquire with your HIOKI distributor.)
RMS voltage
Measurement method
: True RMS (calculated continuously every 10 or 12 cycles at 50 or
Range selection
Measurement accuracy
: Manual (channels 1 to 3 are set in the same operation)
: AC : ±0.2% rdg. ±0.1% f.s.
DC : ±0.3% rdg. ±0.4% f.s.
RMS current
60 Hz respectively)
Measurement method
: True RMS (calculated continuously every 10 or 12 cycles at 50 or
Range selection
Measurement accuracy
: Manual (channels 1 to 3 are set in the same operation)
: ±0.2% rdg. ±0.1% f.s. + clamp-on sensor accuracy
60 Hz respectively)
Transient overvoltage (impulse)
Measurement method
: 2 MHz sampling
Measurement range
: 2000 Vpk
Display items
: 4 ms waveform (2 ms before and after center peak)
: Period exceeding threshold (max. 4 ms)
Minimum detectable duration : 0.5 µs
Measurement accuracy : ±5.0% rdg. ±20 V (1000 V DC and 700 Vrms/100 kHz)
Voltage swell (rise in RMS voltage)
Measurement method
: True RMS (a single cycle is calculated by overlapping each half cycle)
Display items
Measurement accuracy
: Amplitude and duration of swell
: Same as RMS voltage
Measurement method
: True RMS (a single cycle is calculated by overlapping each half cycle)
Display items
Measurement accuracy
: Amplitude and duration of dip
: Same as RMS voltage
Measurement method
: Same as voltage dip
Measurement range
Measurement source
Measurement accuracy
: 42.500 to 69.000 Hz
: Voltage (same as the PLL synchronization source)
: ±10 mHz (10 to 110% of range, with sine wave)
Measurement method
Measurement accuracy
: Calculated continuously every 10 or 12 cycles at 50 or
60 Hz respectively
: ±0.2% rdg. ±0.1% f.s. + clamp-on sensor accuracy
Measurement accuracy
: ±1 dgt. from the calculation of each measurement value
(The voltage between lines is measured for three phase 3-wire lines, and
phase voltage is measured for three phase 4-wire lines.)
Voltage dip (drop in RMS voltage)
(The voltage between lines is measured for three phase 3-wire lines, and
phase voltage is measured for three phase 4-wire lines.)
Instantaneous Interruption
Active power
Reactive power
(±3 dgt. for the sum)
Power factor
Measurement range
Measurement accuracy
: -1.000 (lead) to 0.000 to +1.000 (lag)
: ±1 dgt. from the calculation of each measurement value
(±3 dgt. for the sum)
Displacement power factor
Measurement method
Measurement range
Measurement accuracy
Voltage unbalance factor
Measurement method
Current unbalance factor
Measurement method
∆V10 flicker
: Calculated from the phase difference between the
fundamental waveforms of voltage and current
: -1.000 (lead) to 0.000 to +1.000 (lag)
: ±0.5% rdg. ±0.2% f.s. ±1 dgt.(±3 dgt. for the sum)
: Calculation for three-phase 3-wire (3P3W3M) and three
phase 4-wire fundamental waveforms of voltage
: Calculation for three-phase 3-wire (3P3W3M) and
three-phase 4-wire fundamental waveforms of current
Display items
: ∆V10, ∆V10 (average over one hour, fourth maximum over one hour,
Standard voltage: Auto
Measurement accuracy
: Same operation as AGC for IEC flicker
: ±2% rdg.
Measurement method
: Per IEC61000-4-15
Measurement accuracy
: ±5% rdg. or less of the limit value
Analysis window
Analysis orders
Measurement accuracy
: Rectangular
: 1 to 50
: Voltage/current : 1st to 20th orders : ±0.5% rdg. ±0.2% f.s.
21st to 50th orders : ±1.0% rdg. ±0.3% f.s.
: 1st to 20th orders : ±0.5% rdg. ±0.2% f.s.
21st to 30th orders : ±1.0% rdg. ±0.3% f.s.
31st to 40th orders : ±2.0% rdg. ±0.3% f.s.
41st to 50th orders : ±3.0% rdg. ±0.3% f.s.
maximum over one hour, overall maximum (during the measurement
period)), ∆U (deviation with respect to nominal voltage)
IEC flicker (short period flicker Pst, long period flicker Plt)
Pst is measured for 10 minutes, and Plt is measured for 2 hours
Harmonic voltage, current and power (including fundamental waveform components)
(for 50/60 Hz, clamp-on sensor accuracy must be included for current and power)
Inter-harmonic voltage and current
Analysis window
Analysis orders
: Rectangular
: 0.5 to 49.5
Measurement method
: Difference between voltage and current phase angle
: Sum of all or multiple channels
: 1st to 3rd orders : ±2˚
4th to 50th orders : ±(0.02˚ × k+2˚), k = harmonic order
Harmonic voltage/current phase difference (including fundamental waveform content)
Display items
Measurement accuracy
(for 50/60 Hz, clamp-on sensor accuracy must be included for current and power)
-5. Display specifications
Display device
Text display
: 6.4" TFT color LCD (640 × 480 dots)
: English, German, French, Italian, Spanish, Chinese or
-6. External interface specifications
(1) External control terminals : External event input and output
(2) PC card interface Slot
: Compliant with PCMCIA/JEIDA PC Card Standard,
Type II slot × 1
: Flash ATA cards up to 528 MB
Compatible cards
(3) RS-232C interface
: EIA RS-232C-compliant (with 9-pin D-sub connector)
Destination device
: Printer or modem or GPS
Printer interval selections : OFF, 1, 5, 10, or 30 minutes, 1 or 2 hours
(4) LAN interface
Communications protocol : Ethernet and TCP/IP (with 10BASE-T RJ-45 connector)
-7. Environment & safety specifications
Operating environment
: Indoors, up to a height of 2000 m (6562.2 ft)
Storage temperature & humidity : -20 to 50˚C, max. 80% rh (non-condensating)
Operating temperature and humidity : 0 to 40˚C, max. 80% rh (non-condensating)
Maximum measurement terminal voltage : Voltage terminals : 780 Vrms AC,
1103 V peak
Current terminals : 1.7 Vrms AC,
2.4 V peak
Maximum in-phase voltage : 600 Vrms AC (50/60 Hz, voltage input terminals)
Withstand voltage
: 5.55 kVrms AC/15 sec
Enclosure protection
Standards conformance
(50/60 Hz, 1 mA current sensitivity)
Between voltage and clamp input terminals, between the voltage
input terminal and 3196 casing, and between voltage input
terminals (U1 to U3) and voltage input terminal (U4)
: IP30 (per EN60529)
: EMC : EN61326:1997+A1:1998+A2:2001
CLASS A, EN61000-3-2:2000 and
Safety : EN61010-1:2001
Voltage input unit :Contamination Level 2,
Measurement Category III
(Anticipated transient overvoltage: 6000 V)
■ Option Specifications
Clamp On Sensors
Cord length: 3 m (9.84 ft)
Cord length: 3 m (9.84 ft)
Cord length: 3 m (9.84 ft)
Cord length: 3 m (9.84 ft)
Primary current rating
Output voltage
100 A AC
500 A AC
1000 A AC
10 mV/A AC
1 mV/A AC
1 mV/A AC
0.5 mV/A AC
±0.3% rdg. ±0.02% f.s.
±0.3% rdg. ±0.02% f.s.
±0.3% rdg. ±0.01% f.s.
±1.0% rdg. ±0.01% f.s.
(45 to 66 Hz)
±2˚ or less
±1˚ or less (±1.3˚ for 90 A or more)
±0.5˚ or less
±1˚ or less
±1.0% or less for 66 Hz to 5 kHz (deviation from specified accuracy)
±2.0% or less for 66 Hz to 5 kHz (deviation from specified accuracy)
Frequency characteristic
Corresponding to 0.1 A or less (with magnetic field of 400 A/m AC)
Corresponding to 1 A or less (with magnetic field of 400 A/m AC)
Effect of external magnetic field
±0.5% or less
±1.5% or less
Effect of conductor position
300 Vrms (insulated conductor)
300 Vrms (insulated conductor)
600 Vrms (insulated conductor)
600 Vrms (insulated conductor)
Maximum rated voltage to earth
50 A continuous
130 A continuous
550 A continuous
1000 A continuous
Maximum allowable input (45 to 66 Hz)
Measurable conductor diameter
φ15 mm (0.59") or less
φ15 mm (0.59") or less
φ46 mm (1.81") or less
φ55 mm (2.17") or less, 80 (3.15") × 20 (0.79") mm busbar
46W (1.81") × 135H (5.31") ×
46W (1.81") × 135H (5.31") ×
77W (3.03") × 151H (5.94") × 99.5W (3.92") × 188H (7.40") × 42D (1.65") mm,
Dimensions and weight
21D (0.83") mm, 230 g (8.1 oz.) 21D (0.83") mm, 230 g (8.1 oz.) 42D (1.65") mm, 360g (12.7 oz.)
590g (20.8 oz.)
Clamp On Sensor
■ Accessories
Cord length
Sensor to circuit: 2 m (6.56 ft)
Circuit to connector: 1 m (3.28 ft)
(9438-02 VOLTAGE MEASUREMENT CABLE (one each of red, yellow, blue
and gray, plus four black lines, Cord length: 3 m (9.84 ft), 9459 BATTERY PACK,
9458 AC ADAPTER, Strap, LAN connector cover, Input Cord Label, Operating
Manual (CD-R), Quick Start Manual)
Primary current rating
Output voltage
500 A AC, 5000 A
500 mV AC f.s.
±2.0% rdg. ±1.5 mV (for input 10% or more of the range)
(45 to 66 Hz)
±1˚ or less
±3 dB or less for 10 Hz to 20 kHz (deviation from specified accuracy)
Frequency characteristic
Corresponding to 5 A, 7.5 A max. (with magnetic field of 400 A/m AC)
Effect of external magnetic field
±3.0% or less
Effect of conductor position
1000 Vrms (insulated conductor)
Maximum rated voltage to earth
10000 A continuous
Maximum allowable input (45 to 66 Hz)
Measurable conductor diameter
φ254 mm (10") or less
Sensor length: 910 mm (2.99 ft), 240 g (8.5 oz.),
Dimensions and weight
Circuit: 57W (2.24") × 86H (3.39") × 30D (1.18") mm, 140 g (4.9 oz.)
LR03 alkaline battery × 4 (continuous operation max. 168 hours) or
Power supply
9445 AC ADAPTER(optional)
Standard accessories
Cord length : 3 m (9.84 ft)
Up to 1500 A AC, CT ratio : 10:1
Measurable conductor diameter :
φ55 mm (2.17"), width : 80 mm (2.17") bus bar
100 to 240 V AC, 1.2 A
50/60 Hz
104W (4.09") × 51H (2.01") ×
18D (0.71") mm, 250 g (8.83 oz.)
(soft case)
(hard case)
450W (17.72") × 350H (13.78") × 200D
(7.87") mm, 3.0 kg (106.01 oz.)
380W (14.96") × 560H (22.05") × 260D
(10.24") mm, 6.3 kg (222.2 oz.)
7.2 V DC, 2700 mAh
9670 PRINTER option components
The 9671 AC ADAPTER should be purchased along with the 9670 PRINTER.
Also, the 9638 RS-232C CONNECTION CABLE or RS-232C cable (9- to
25-pin crossover) is required to connect to the 3196.
A battery pack and battery charger to power the 9670 Printer are also available in
some countries. Please contact your HIOKI distributor for details.
By itself, the 3196 is only capable of voltage measurement. Purchase the optional
9660 or 9661 CLAMP-ON SENSOR for current and power measurement.
● Standard combination example
For three-phase 3-wire (3P3W3M) and three-phase 4-wire measurements
Models 3196 + 9661 (500 A) × 3 + 9339 + PC card (128 MB)
■ Options
CLAMP ON SENSOR (100 A AC) Voltage output type
CLAMP ON SENSOR (500 A AC) Voltage output type
FLEXIBLE CLAMP ON SENSOR (5000 A AC) Voltage output type
AC ADAPTER (for the 9667, for America, Japan)
AC ADAPTER (for the 9667, for Europe)
CLAMP ON SENSOR (1000 A AC) Voltage output type
CLAMP ON SENSOR (5 A AC) Voltage output type
CLAMP ON LEAK SENSOR (5A AC with Model 3196) Voltage Output Type
CLAMP ON LEAK SENSOR (5A AC with Model 3196) Voltage Output Type
VOLTAGE MEASUREMENT CABLE (standard accessory)
BATTERY PACK (standard accessory)
PRINTER (with one roll recording paper)
AC ADAPTER (for 9670)
RECORDING PAPER (80 mm (3.15") x 25 m (82.03 ft), 4 rolls, for 9670)
RS-232C CABLE (1.5 m (4.92 ft), for printer connection)
LAN CABLE (5m (16.41 ft), with straight and crossover connectors)
PQA-HiVIEW (PC application software)
PQA-HiVIEW PRO (PC application software)
*Please select either USB or Parallel license Key.
Operating Manual (bound version)
XD112 GPS Box (including antenna and RS-232C cable)
100 to 240 VAC, 50/60 Hz
134W (5.28") × 70H (2.76") × 41D (1.61") mm
350 g (12.37 oz.)
81 Koizumi, Ueda, Nagano, 386-1192, Japan
TEL +81-268-28-0562 / FAX +81-268-28-0568
E-mail: [email protected]
6 Corporate Drive, Cranbury, NJ 08512 USA
TEL +1-609-409-9109 / FAX +1-609-409-9108
E-mail: [email protected]
Shanghai Representative Office :
1704 Shanghai Times Square Office
93 Huaihai Zhong Road
Shanghai, 200021, P.R.China
TEL +86-21-6391-0090, 0092
FAX +86-21-6391-0360
E-mail: [email protected]
All information correct as of Jan. 6, 2006. All specifications are subject to change without notice.
Printed in Japan