800 Series Power Analyzer
Model 806 Instruction Manual
#61-806
#61-807
Table of Contents
1. Basic instructions…………………… 3
1.1. Introduction……………………. 3
1.2. Safety………………………….. 4
2. Model 806 features………………… 4
2.1. Product features………………. 4
2.1.1. Backlight………………. 5
2.1.2. Auto power off………… 5
2.1.3. Auto-detect clamps…… 5
2.2. Display & keypad……………… 5
2.3. Voltage and current input
Terminals………………………. 6
3. Startup……………………………….. 7
3.1. Selecting a program…………… 7
3.2. Loading a new program………. 7
3.3. Charging the battery………….. 8
3.4. Turning the analyzer off………. 9
4. Model 806 display screens………… 10
4.1. Table view……………………… 10
3-phase 4-wire………… 11
4.1.1. 3-phase 3-wire………… 12
4.1.2. Single-phase………….. 12
4.1.3. Split-phase……………. 13
4.1.4. 2 wattmeter method
(3 PT, 2 CT)…………… 13
4.2. Exploded view…………………. 14
4.3. Bar graph………………………. 15
4.4. Scope view…………………….. 16
4.4.1. Waveform zoom……… 17
4.4.2. Harmonic bar graph….. 18
4.5. Setup screen………………….. 19
4.6. Recording messages…………. 20
5. Programming the 806……………… 20
5.1. Entering the programming
Menu……………………………. 20
5.2. Setup menu…………………… 22
5.2.1. Measurement settings. 22
5.2.2. Recording settings…... 23
5.2.3. Communication
Settings………………. 27
5.2.4. Date/time settings…… 28
5.2.5. Password settings…... 29
5.2.6. Recall factory settings. 29
5.3. Display menu…………………. 30
5.3.1. Bar graph settings……. 30
5.3.2. Exploded view settings. 31
5.3.3. Screen contrast………. 32
5.4. Run men……………………….. 33
5.5. Files menu……………………... 33
5.5.1. Directory………………. 33
5.5.2. Deleting a file………….. 34
5.5.3. Formatting the memory. 35
5.6. Clear menu……………………... 35
5.6.1. Clearing energy
Counters……………….. 35
5.6.2. Clearing min/max
Values………………….. 36
5.7. Off menu……………………….. 36
6. Hooking up the analyzer……………. 36
6.1.1. 3-phase 4-wire
connection diagram…… 37
6.1.2. 3-phase 3-wire
connection diagram…… 37
6.1.3. Single-phase
connection diagram…… 38
6.1.4. Split-phase
connection diagram….. 38
6.1.5. 2 wattmeter method
connection diagram…. 39
7. Recording data……………………. 39
8. Downloading data to your PC……. 40
9. PowerVision™ Software and
interactive demo……………………. 42
10. Technical specifications…………… 42
11. Optional programs and
Accessories………………………… 43
12. Quick reference guide……………… 45
13. Warranty and repair………………. 47
2
1. Basic instructions
This manual is intended to familiarize the new owner of the Model 806 Power Analyzer with its features
and operations.
IDEAL’s 800 series power analyzers are built with components incorporating the most advanced
technology in microelectronics, providing features and performance only found in the highest quality
power meters and harmonic analyzers. They will provide you with years of accurate and dependable
performance.
The model 806 is a valuable tool to reduce energy cost, and troubleshoot electrical equipment and
distribution systems. The model 806 can be used on a variety of electrical systems, including: 3-phase 4wire, 3-phase 3-wire, single-phase, split phase, and on power distribution using the two wattmeter method
of power calculation (3PT, 2CT).
WARNING - Read this manual completely before connecting and powering
the analyzer to avoid damage that may result from improper use of this
equipment
1.1 Introduction
After receiving the analyzer, please check the following:
1. Check that the instrument has not been damaged in transit.
2. The power analyzer kit contains all items
• Model 806 power analyzer
• 1 Power supply/RS-232 interface
• 1 Power cord
• 1 cable for connecting the 806 to the power supply/RS-232 interface
• 1 RS-232 communication cable.
• 4 Voltage leads
• 4 Alligator clips
• 3 1000AAC current clamp adapters
• 1 100AAC current clamp adapter (61-807 only)
• 1 PowerVision™ instruction manual
• 1 806 Power Analyzer instruction manual
• CD with the PowerVision™ Analysis Software and Interactive Demo
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1.2 Safety
WARNING!
1. Read the instruction manual before using the 806 power analyzer. It contains important information
necessary to guarantee proper operation of the instrument.
2. To avoid electrical shock hazards and/or damage to the meter:
- Do not exceed the voltage ratings for the meter. Use caution when measuring voltage.
- Do not use during electrical storms. Electrical storms may result in high voltage. High-
energy transients can damage the meter and present a dangerous shock hazard.
3. Ensure meter is in proper working order before using. Visually inspect meter for damage.
4. Never ground yourself when taking electrical measurements. Do not touch exposed metal pipes,
outlets, fixtures etc. Keep your body isolated from ground by using dry clothing, rubber shoes, mats,
or any other approved insulating material. Keep your fingers behind the finger guards on the probes.
Work with others.
5. When disconnecting from a circuit, disconnect the hot lead first, then the common lead.
6. Disconnect the meter from the circuit before turning off any inductor, including motors, transformers,
and solenoids.
If the maximum allowable phase-to-neutral voltage of 500 V has been exceeded during the measuring
process, the analyzer will display a warning message [WARNING MAX 500 V] at the bottom of the
display screen to let the user know that this rating has been exceeded. When measuring phase-to-phase
voltages the limit is set at 866V.
2. Model 806 features
The IDEAL Power Analyzer is the most versatile and easy-to-use power quality test instrument on the
market. Four programs measure and analyze power quality on both single- and three-phase electrical
systems. Instantaneous readouts including tables, bar graphs and even individual waveforms make job
site data interpretation easy. With a real-time clock and 1 MB of memory, the Power Analyzer stores data
that can be downloaded to a personal computer for in-depth analysis using PowerVision™ software.
The Energy and Harmonics Program comes standard with the IDEAL Power Analyzer. Disturbances,
Check-Meter, Fast-Check and Flicker Programs are available separately. These programs allow the user
to monitor additional facets of power quality with a single test instrument. The details of each program
are discussed in section 11 of this instruction manual.
1.2 Product features
Features
True RMS
Single- or three-phase measurements
Data logging (1 MB memory)
4-channels for voltage measurements
4-channels for current measurements
Auto-detect clamps
Auto ranging
Min/max
Energy and Harmonics Program
PowerVision Software
Optional Programs:
Auto display shutoff
Rechargeable Ni-Cad battery
Intelligent battery charging system
Flicker
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Power & Energy Measurements
Kilowatts (kW)
Volt-amperes (VA)
Inductive reactive power (kvarL)
Capacitive reactive power (kvarC)
Power factor (PF)
Frequency (Hz)
Kilowatt hours (kWh)
Reactive power per hour (kvarhL, kvarhC)
Harmonics Measurements
Total harmonic distortion (%THD)
Harmonic factorization (FFT) to 51
harmonic
st
2.1.1 Backlight
The Model 806 power analyzer has a backlit LCD display to make it easier to read in dimly lit
environments. This display can be turned off to conserve battery life.
To turn off the display backlight:
1) Press the off key quickly.
2) Pressing the off key quickly again to turn the backlight back on.
2.1.2 Auto power off
The 800 series power analyzers have an energy saving system to conserve power during data recording.
After 5 minutes, if no key is pressed, the display will automatically go blank. The analyzer will continue to
record data and update all of the min/max and energy values. To restore the display, press any key
except for the on key. The on key is disabled when the display has been turned off to help the user
differentiate between the display being off and the analyzer being off.
2.1.3 Auto-detect clamps
The power clamp adapters have a special sensor in the connector, allowing the Model 806 power
analyzer to automatically detect the primary current value. Simply plug the clamp adapters into the
phase or neutral current input terminals and the analyzer will detect the clamp and update any changes to
the current clamp adapter values in the setup menu.
2.2 Display and keypad
The model 806 has a 160x160 pixel LCD for viewing the analyzer’s measurements. There are 5 basic
view screens to display the analyzer’s information in an easy-to–read format. Detailed information on
these screens is found in section 4 of this instruction manual.
The 9-button keypad allows the user to move through the 5 display screens and access the analyzer’s
programming menu. Detailed information on the programming menu is found in section 5 of this
instruction manual.
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For best viewing in direct sunlight, or in dark areas, the user can adjust the display contrast. Use the left
[3] and right [4] arrow buttons to increase or decrease the display contrast. The contrast will change
while you are making the adjustment. This can also be changed form the programming menu. See
section 5.3.3 of this instruction manual for more information.
2.3 Voltage and current input terminals
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3. Startup
The 800 series analyzers come standard with the Energy and Harmonics program loaded onto the
analyzer. Optional programs are available to expand the capabilities of your analyzer. More detailed
information about these programs is located in section 11 of this instruction manual.
3.1 Selecting a Program
SELECT PROGRAM
HARMONICS 7.02
EMPTY PROGRAM
EMPTY PROGRAM
EMPTY PROGRAM
LOAD PROGRAM
1) Press the red on button <ON> to power up the analyzer. This brings up the introductory screen of
the analyzer, where the user can select a program or load an additional program.
2) Use the up [5] and down [6] arrow keys to move cursor through the available programs listed in
the introductory screen. The cursor will automatically skip over the spaces that are currently empty
and reserved for optional programs.
3) To select the Energy and Harmonics program, select HARMONICS and press the enter key
[ENTER].
4) If no program is selected after a few seconds, the analyzer will automatically select the program
highlighted by the cursor.
3.2 Loading a new program
The 800 series analyzer can hold up to 4 programs at one time. Optional programs can be loaded onto
any of the available spaces on the analyzer, which are labeled as EMPTY PROGRAM on the introductory
screen. The programs come loaded onto a cartridge and are downloaded onto the analyzer through the
power supply/RS-232 interface.
Note: A cartridge program loader can be used on only one individual
analyzer. The download of the program includes an identification step,
which prohibits the download of the optional program to other
analyzers. The program can be reloaded onto the original analyzer an
unlimited number of times. Remember to write the serial number of
your power analyzer on the cartridge loader.
To load a new program:
1) Turn the analyzer off
2) Plug the power cord into the power supply/RS-232 interface. The analyzer must have line power
throughout the program loading process.
3) Connect the analyzer to the power supply/RS-232 interface with the interface cable.
4) Insert the cartridge loader into the small auxiliary input on the front of the power supply/RS-232
interface.
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5) Press the red on button [ON] to power up the analyzer. This brings up the introductory screen of the
analyzer, where the user can select a program or load an additional program.
6) Use the up [5] and down [6] arrow buttons to move cursor through the available programs listed in
the introductory screen. The cursor will automatically skip over the spaces that are currently empty
and reserved for optional programs.
7) Select LOAD PROGAM and press enter <ENTER>.
8) Select one of the available spaces on the analyzer <EMPTY PROGRAM> and press enter
<ENTER>.
9) Selecting a space that is already occupied by a program will erase the program and replace it with the new program being loaded by the user.
10) The power analyzer will perform a diagnostic test to ensure that the cartridge has been properly
connected.
11) If analyzer detects the cartridge, then the program will be loaded.
12) Once the loading is completed, press the red off button <OFF> to turn the analyzer off.
13) When the unit is turned on again, the optional program will appear on the introductory screen.
14) If no program was found, or a loading error occurred, cycle the meter off and on again, and repeat
the steps above.
Note: If a cartridge has already been loaded on power analyzer, it will not load onto another. In this case,
the analyzer will display an error message on the screen.
3.3 Charging the battery
The 800 series power analyzers are equipped with an intelligent energy charging system. The analyzer
continuously checks the state of the battery while it is plugged into the power supply. The charging
process stops when the battery is at its maximum charge level. This increases the life of the batteries.
If the battery has been completely discharged, the charging process should last at least 3 hours with no
interruption. It is important to allow a new battery a charging period of 16 hours in order to completely
charge the battery.
The battery charge indication is located in the lower right-hand corner of the analyzer. The bars indicate
how much charge is left in the battery.
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To charge the battery:
1) Plug the power cord into the power supply/RS-232 interface.
2) Connect the analyzer to the power supply/RS-232 interface with the interface cable.
3) Turn the analyzer on. The analyzer must be on to charge the battery.
4) When the battery is charging, there will be a right arrow at the far left-hand side of the battery
charge indicator.
5) After 5 minutes, if no key is pressed, the display will automatically go blank. The unit is still
charging, but the analyzer has automatically shut down the display to conserve energy. For
information on this auto power off feature, see section 2.1.2 of this instruction manual.
Note: The analyzer must be turned on to charge the battery.
3.4 Turning the analyzer off
The model 806 Power Analyzer has password protection on the off button. This keeps the analyzer from
being accidentally shut down during data recording. The user can disable this option. For instructions on
disabling the password refer to section 5.7 of this instruction sheet. If the password has been disabled for
turning the power off, the analyzer will turn off after step #1 of the following instructions.
To turn the analyzer off:
1) Press and hold the off button [OFF] for a few seconds. A quick press of the off button turns the
backlight on and off.
2) The analyzer will ask for a password to be entered.
PASSWORD
3) The password is 4 buttons pressed in sequence. The default password is left arrow [3], set [SET],
up arrow [5], set [SET]. The user can change the password on the Model 806. For information on
changing the password, see section 5.2.5 of this instruction manual.
4) After the password is entered, the analyzer will prompt the user to “press off to close”.
5) Press the off key again to shut the analyzer off. If the off button is not pressed within a few seconds,
the analyzer will return to normal operation, and this process will need to be repeated to turn the
analyzer off.
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4. Model 806 display screens
The 800 series analyzer is portable enough to be used as a hand-held power quality meter. There are 5
basic screens to give the user real-time information on the power, energy and harmonics measurement at
the power source, in the distribution system, or at the load itself. The 5 basic screens are the table,
exploded view, bar graph, scope-view and setup screens. There are two additional screens, the
waveform view and harmonic bar graph screens that can be accessed from the scope view screens.
Each screen is described in detail in this section of the instruction manual.
To move from screen to screen, press the escape [ESC] button.
4.1 Table view screen
In this screen, all available power and energy parameters are displayed in an easy-to-read table. The
information provided will depend on the measurement type selected. Specific tables will be created
based on the measurement type selected in the programming menu. See section 5.2.1 of this instruction
manual for more information. The information displayed is independent of the information that the
analyzer is recording. For example, the user does not have to record the neutral current to see it
displayed in this screen.
The following is a list of the power values displayed in the table view screen:
• Voltage (V): The RMS value measured at each phase (L1, L2 & L3) and the average value of the
instantaneous values of the three-phases (III).
• Current (A): The RMS value measured at each phase (L1, L2 & L3) and the average value of the
instantaneous values of the three-phases (III).
• Active power (kW): The active power is calculated from instantaneous voltage and current data. The
display gives the instantaneous values of the active power of each phase and also the three-phase
total instantaneous active power, which is the addition of each phase value.
• Inductive reactive power (kvarL): The inductive reactive power is calculated from instantaneous
voltage and current data. The display gives the instantaneous values of the inductive reactive power
of each phase and also the three-phase total instantaneous inductive reactive power, which is the
addition of each phase value.
• Capacitive reactive power (kvarC): The capacitive reactive power is calculated from instantaneous
voltage and current data. The display gives the instantaneous values of the capacitive reactive power
of each phase and also the three-phase total instantaneous capacitive reactive power, which is the
addition of each phase value.
• Power factor (PF): The power factor is calculated for each phase and the three-phase average value.
• Frequency (Hz): Displays the instantaneous value of the frequency.
• Apparent power: The apparent power is the three-phase total, which is the addition of each phase
value.
The energy calculations, kilowatt hour, inductive reactive and capacitive reactive power per hour are
calculated based on the accumulated values from the moment that the energy counters were reset to
zero. These values can be cleared on the display without affecting what the analyzer is recording. For
information on how to reset the energy counters and clear these values, see section 5.6 of this instruction
manual.
10
In the sample screen above, the 800 series analyzer is displaying the real-time values of a three-phase 4wire system. The readings can be changed from real-time (instantaneous) measurements to minimum or
maximum values.
To change the values:
1) Press the up [5] and down [6] arrow buttons to toggle between the instantaneous [INST], minimum
[MIN], or maximum [MAX] values.
2) The upper left-hand corner of the table indicates which values are being displayed.
3) The minimum and maximum values can be cleared on the display without affecting what the analyzer
is recording. For information on how to clear these values, see section 5.6 of this instruction manual.
4) Press the escape [ESC] button to move to the exploded view screen.
4.1.1 3-phase 4-wire measurements
When a three-phase four-wire measurement type is selected in the programming menu, the analyzer will
display the following information on the table view screen.
Parameter Symbol L1 L2 L3 Three-phase
Phase-to-Neutral voltage Vp-n XXXX
Current A XXXX
Active power kW XXXX
Inductive reactive power kvarL XXXX
Capacitive reactive power kvarC XXXX
Power factor PF XXXX
Frequency Hz X
Apparent power kVA X
Neutral current AN X
Kilowatt hours kWh X
Inductive reactive power per hour kvarhL X
Capacitive reactive power per hour kvarhC X
value
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4.1.2 3-phase 3-wire measurements
When a three-phase three-wire measurement type is selected in the programming menu, the analyzer will
display the following information on the table view screen.
Parameter Symbol L1 L2 L3 Three-phase
value
Phase-to-Phase voltage Vp-p XXXX
Current A XXXX
Active power kW XXXX
Inductive reactive power kvarL XXXX
Capacitive reactive power kvarC XXXX
Power factor PF XXXX
Frequency Hz X
Apparent power kVA
Kilowatt hours kWh X
Inductive reactive power per hour kvarhL X
Capacitive reactive power per hour kvarhC X
4.1.3 Single-phase measurements
When a single-phase measurement type is selected in the programming menu, the analyzer will display
the following information on the table view screen.
Parameter Symbol L1
Phase-to-Phase voltage Vp-n X
Current A X
Active power kW X
Inductive reactive power kvarL X
Capacitive reactive power kvarC X
Power factor PF X
Frequency Hz X
Apparent power kVA X
Kilowatt hours kWh X
Inductive reactive power per hour kvarhL X
Capacitive reactive power per hour kvarhC X
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4.1.4 Split-phase system
When a split-phase measurement type is selected in the programming menu, the analyzer will display the
following information on the table view screen.
Parameter SymbolL1-N L2-N Split-phase
value L1-L2
Voltage Vp-p XXX
Current A XXX
Active power kW XXX
Inductive reactive power kvarL XXX
Capacitive reactive power kvarC XXX
Power factor PF XXX
Frequency Hz X
Apparent power kVA X
Neutral current AN X
Kilowatt hours kWh X
Inductive reactive power per hour kvarhL X
Capacitive reactive power per hour kvarhC X
4.1.5 2 wattmeter method (3 PT, 2 CT)
When the two-wattmeter measurement type (3PT, 2CT) is selected in the programming menu, the
analyzer will display the following information on the table view screen.
Parameter Symbol L1 L2 L3 Three-phase
value
Phase-to-Neutral voltage Vp-p XXXX
Current A XXXX
Active power kW XXXX
Inductive reactive power kvarL XXXX
Capacitive reactive power kvarC XXXX
Power factor PF XXXX
Frequency Hz X
Apparent power kVA X
Kilowatt hours kWh X
Inductive reactive power per hour kvarhL X
Capacitive reactive power per hour kvarhC X
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4.2 Exploded view screen
In the exploded view screen, any three parameters can be selected and displayed in large characters for
easy viewing. These are instantaneous measurements and will change in real-time as the system
changes.
Note: Any three parameters can be selected regardless of the measurement type, or parameters chosen
for data recording.
To change these parameters:
1) Press the enter button [ENTER]. This brings up a grid showing all of the available parameters.
2) The selected parameters will be highlighted in black.
3) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
parameters.
4) Pressing the set [SET] button selects, or de-selects a parameter. Pressing set while on “CLEAR
ALL “ at the bottom of the display clears all parameters.
5) Only three parameters may be chosen. If an additional parameter is accidentally selected, the
analyzer will display the “OUT OF RANGE” error message at the bottom of the screen. This
message will disappear after a few seconds.
6) After all three parameters have been selected, press the enter [ENTER] button to accept the new
parameters. This will return the user to the exploded view screen and the new parameters will be
displayed on the screen.
7) Pressing the escape [ESC] button will return the user to the exploded view screen without modifying
the parameters.
8) Press the escape [ESC] button from the exploded view screen to move to the bar graph screen.
Note: This screen can also be changed from the programming menu. For more information see section
5.3.2 of this instruction manual.
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4.3 Bar graph screen
The bar graph screen gives a graphic representation of a single parameter on all three-phases
simultaneously. These are instantaneous measurements and will change in real-time as the system
changes.
To change the parameter and the bar graph scale:
1) Press the enter button [ENTER]. This brings up a selection box with the existing selection
highlighted.
2) Use the up [5] and down [6] arrow buttons to move through the available parameters.
3) After the parameter has been selected, press the enter [ENTER] button. This brings up the zeroscale selection box. The existing zero-scale selection will be highlighted.
4) In the lower right-hand corner of the screen is a numerical keypad. Use the up [5], down [6], left
[3], and right [4] arrow buttons to move the cursor through the keypad.
5) Press the set [SET] button to select a new numerical value. You can change the zero-scale to a
negative number by selecting the +
selecting the decimal point [.].
6) To delete a number, select the backspace icon [←] and press the set button.
7) After the zero-scale value has been selected, press the enter [ENTER] button. This brings up the
full-scale selection box. The existing full-scale selection will be highlighted.
8) Press the set [SET] button to select a new numerical value. You can change the full-scale to a
negative number by selecting the +
selecting the decimal point [.].
9) After the full-scale value has been selected, press the enter [ENTER] button. This will return the
user to the bar graph screen and the new scaling will be applied to the graph. If the full-scale value
entered is lower than the zero-scale value, the analyzer will display the “ZERO must be lower than
FULL SCALE” error message at the bottom of the screen. This message will disappear after a few
seconds and return the user to the zero-scale selection.
9) Pressing the escape [ESC] button any time during this process will return the user to the bar graph
screen without modifying the graph.
10) Press the escape [ESC] button from the bar graph screen to move to the scope view screen.
Note: This screen can also be changed from the programming menu. For more information see section
5.3.1 of this instruction manual.
symbol. A decimal point may also be used in the zero-scale by
symbol. A decimal point may also be used in the full-scale by
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4.4 Scope view screen
The scope view screen gives a graphic representation of the voltage and current waveforms on all threephases simultaneously. These are captured measurements and will not change in real-time as the
system changes. To capture a new set of waveforms, use the up [5] and down [6] arrow buttons to
move the curser to the acquire icon [Adq] and press the enter [ENTER] button. The graphic
representation of the new waveforms will be displayed on the screen.
The left [3], and right [4] arrow buttons move the cursor along the time axis of the waveform. The
measurement value, located above each grid, will change based on the position of the cursor as it passes
through the waveform.
There are two additional screens that can be accessed from the scope view screen, the waveform zoom
and the harmonic bar graph screens. These give additional information on the shape of the distortion and
the harmonic content causing the distortion.
To enter the waveform zoom screen for a closer look at the waveform shape, use the up [5] and down
[6] arrow buttons to move the curser to any voltage or current phase, and press the enter [ENTER]
button.
Press the escape [ESC] button from the scope view screen to move to the setup screen.
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4.4.1 Waveform zoom
The waveform zoom screen gives an exploded view of any voltage or current waveform. This is a
captured measurement and will not change in real-time as the system changes. The left arrow [3] on the
display indicates which specific waveform is displayed on the screen.
The left [3], and right [4] arrow buttons move the cursor along the time axis of the waveform. The
measurement value, located to the left of the grid, will change based on the position of the cursor as it
passes through the waveform.
To capture new measurements on the waveform, use the up [5] and down [6] arrow buttons to move
the curser to the acquire icon [Adq] and press the enter [ENTER] button. The graphic representation of
the new waveform will be displayed on the screen.
To change to a different voltage or current waveform while remaining in the waveform zoom screen, use
the up [5] and down [6] arrow buttons to move the curser to any voltage or current phase, and press
the enter [ENTER] button.
To enter the harmonic bar graph screen to breakdown the harmonic content of the distortion, press the
enter [ENTER] button.
Press the escape [ESC] button from the waveform zoom screen to move to the setup screen.
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4.4.2 Harmonic bar graph
For the harmonic bar graph screen, the analyzer performs an FFT (Fast Fourier Transform) and displays
a histogram display to graphically display the harmonic content from the 1
st
to the 50th Harmonic. The left
arrow [3] on the display indicates which specific voltage or current phase is being broken down. This is
a captured measurement and will not change in real-time as the system changes.
To view the percentage of distortion on the individual odd (or even) harmonic, use the left [3], and right
[4] arrow buttons move the cursor [5] along the buttom of the histogram.
To refresh the screen with new harmonic content of the waveform, use the up [5] and down [6] arrow
buttons to move the curser to the acquire icon [Adq] and press the enter [ENTER] button. The graphic
representation of the new waveform will be displayed on the screen.
To change to a different voltage or current waveform while remaining in the waveform zoom screen, use
the up [5] and down [6] arrow buttons to move the curser to any voltage or current phase, and press
the enter [ENTER] button.
To toggle between the even and odd harmonics, [5] and down [6] arrow buttons to move the curser to
the top of the display [ODD] and press the enter [ENTER] button. This will change the FFT from the
individual odd harmonics to the individual even harmonics. Pressing the enter button again, while the
cursor is on [EVEN], will return the FFT to the individual odd harmonics.
To return to the scope view screen to get a graphic representation of the voltage and current waveforms
on all three-phases simultaneously, press the enter [ENTER] button.
Press the escape [ESC] button from the harmonic bar graph screen to move to the setup screen.
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4.5 Setup screen
In the setup screen, the key recording parameters are displayed to let the user know how the analyzer
has been setup for data collection. Additional information on these recording parameters is located in the
programming menu.
The following information is displayed on this screen:
• Measurement type: This determines what information will be displayed in the table view screen, and
what measurements may be taken during data collection. See section 5.2.1 for more information.
• Voltage ratio: This ratio may be changed in the event a voltage transformer is used. See section
5.2.1 for more information.
• Clamp adapter ratio: These are the values of the phase current clamp adapters and the neutral
current clamp adapter. See section 5.2.1 for more information.
• File name: This is the name of the file that us being used for data recording. See section 5.2.2 for
more information.
• File extension: For the model 806 analyzer, this will always be a standard file extension [.STD].
• Period: This is the user-selected recording period for data collection. See section 5.2.2 for more
information.
• Harmonics: This is the level of harmonics that is being recorded by the analyzer for data collection.
See section 5.2.2 for more information.
• Memory type: This lets the user know if the analyzer has been set for a linear recording, or a cyclical
recording where data is overwritten when the memory is full. See section 5.2.2 for more information.
• Available recording time: The analyzer will automatically calculate how much recording time is
available based on the available memory, number of recording parameters selected and the
recording period.
• Trigger parameter: This is the measurement parameter selected to trigger recording by the analyzer.
See section 5.2.2 for more information.
• Maximum and minimum trigger values: If a trigger parameter has been set, these are the maximum
and minimum value points that will trigger data collection. See section 5.2.2 for more information.
• Trigger date/time on and date/time off: If a trigger date/time has been set, this is the date/time that
data collection will begin and end. See section 5.2.2 for more information.
• Communication parameters: This is the communication protocol that has been established for
downloading data to the computer. If a trigger parameter has been set, these are the maximum and
minimum value points that will trigger data collection. See section 5.2.3 for more information.
Press the escape [ESC] button from the setup screen to move to the table view screen.
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4.6 Recording messages
The power analyzer will display a variety of messages on the screen of the analyzer to let the user know
the status of the data collection. These messages are displayed in the lower left-hand corner of the
screen, and will show up on any of the display screens.
• STOP: The analyzer is not
recording data.
• RECORD: The analyzer is recording data.
• TRIG?: Trigger conditions have not been met. No data is being recorded.
• M. Full: The memory is full. No data is being recorded.
• M.Error: There is an error in the memory. The memory must be formatted.
5. Programming the 806
The 800 series analyzer is also powerful enough to be used for in-depth analysis of power quality and
energy management issues. Its 1MB of memory is completely customizable, giving the user the option to
record any number of parameters for any length of time. Trigger points can also be used to customize the
data collection. Setting minimum and maximum threshold values that trigger recording, result in data
collection only when a potential problem has been identified. This extends the memory of the analyzer,
and makes it easier to sort through the data during the analysis phase.
5.1 Entering the programming menu
The programming menu is password protected to prevent unauthorized access and accidental changes to
the analyzer’s setup options. The programming menu can be accessed from any display screen.
To access the programming menu:
1) Press the set button [SET].
2) The analyzer will ask for a password to be entered.
PASSWORD
3) The password is 4 buttons pressed in sequence. The default password is left arrow [3], set [SET],
up arrow [5], set [SET]. The user can change the password on the Model 806. For information on
changing the password, see section 5.2.5 of this instruction manual.
4) After the password is entered, the analyzer will bring up the programming menu. The password can
be changed, allowing the user to select the password. See section 5.2.5 for more information.
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The programming menu consists of 6 main menu options, which allow the user to program various
aspects of the analyzer’s recording parameters. Each menu is discussed separately in the following
sections. Section 11 of this instruction manual contains a quick reference guide that shows all menu and
sub-menu options, the available selections, and the factory default settings for each menu option. If the
factory default settings are satisfactory, you can simply access the run menu and begin recording right
away.
SETUP
Programming Menu
DISPLAY
RUN
FILES
CLEAR
OFF
To enter a menu, use the up [5] and down [6] arrow buttons to move through the available parameters
and press the enter [ENTER] button.
To exit the programming menu:
1) Press the escape [ESC] button.
2) If nothing has been changed, the analyzer will return to the display screens.
3) If a parameter has been changed, the analyzer will ask for a confirmation to verify that the user
wished to make a change.
4) Use the left [3] and right [4] arrow buttons to choose either yes or no, and press enter.
5) If NO is selected, the user will be returned to the display screens without making any changes.
6) If YES is selected, the programming changes will be made, and the user will be returned to the
display screens.
7) Changing some parameters will drastically alter the nature of the data being recorded by the
analyzer, for example, changing the measurement type from 3Φ 3-wire to 1Φ. In these instances, the
analyzer will ask the user if they wish to overwrite the file with the new setup. Use the left [3] and
right [4] arrow buttons to choose either yes or no, and press enter.
8) If NO is selected, the analyzer will remain in the programming menu to create a new file with the
updated parameters and continue recording. The PowerVision™ software has the capabilities of
opening more than one file, allowing the user to combine data from both files for analysis.
9) If YES selected, the analyzer will overwrite the file and return the analyzer to the display screens.
Any data that has been previously recorded on this file will be lost.
10) If the file type has been changed from either cyclical to linear, or linear to cyclical, the analyzer’s
memory will need to be formatted. In these instances, the analyzer will ask the user if they wish to
format the memory. Use the left [3] and right [4] arrow buttons to choose either yes or no, and
press enter. (See section 5 on file name and type for more information)
11) If NO is selected, the analyzer will remain in the programming menu as this change cannot be made
without formatting the memory. Change the file type back to the original setting before exiting the
programming menu if you do no wish to format the memory.
12) If YES is selected, the analyzer will format the memory and return the analyzer to the display screens.
Any data that has been previously recorded on this file will be lost.
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5.2 Setup menu
The setup menu consists of 6 main menu options, which allow the user to customize the analyzer’s data
collection. Each menu is discussed separately in this sections.
To access the setup menu, use the up [5] and down [6] arrow buttons to move the cursor through the
available parameters of the programming menu, select SETUP and press the enter [ENTER] button.
MEASURE
Setup Menu
RECORD
COMM
CLOCK
PASSWORD
RECALL
To enter a menu, use the up [5] and down [6] arrow buttons to move through the available parameters
and press the enter [ENTER] button.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
5.2.1 Measure
The measure menu contains the parameters for setting up the voltage and current measurement options.
WIRING
Measure Menu
PT/CT
Wiring: This is the type of circuit being measured. The circuit type determines what measurement
parameters are available and how the analyzer will calculate the system measurement values.
Wiring options:
• 3Φ 3-wire – three-phase three-wire circuits
• 3Φ 4-wire – three phase four wire circuits Factory default setting
• 3PT-2CT – 2 wattmeter method
• 1Φ – single-phase circuits
• 1Φ Split – split-phase circuits
To change the wiring type:
1) Use the up [5] and down [6] arrow buttons to highlight WIRING and press the enter [ENTER]
button. This brings up a selection box with the existing wiring selection highlighted.
2) Use the up [5] and down [6] arrow buttons to move through the available options and press the
enter [ENTER] button to select an option.
3) To return to the measure menu without selecting an option, press the escape [ESC] button.
PT/CT: These are the ratios for the voltage and current measurements. Setting the PT ratio allows the
user to hook the analyzer up to a voltage transformer, stepping down the voltage coming in without
changing the actual voltage on the display or in the memory of the analyzer. The auto-detect clamp
feature of the Model 806 analyzer CT automatically sets the CT ratios of the analyzer. If the user is
manually setting these ratios, they will only be prompted for a primary value. All of the power clamp
adapters supplied by IDEAL for the 800 series analyzers have a 2V output. The secondary ratio of the
CT is assumed to be 2V.
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PT/CT settings:
• Prim.V – primary voltage in the PT ratio Factory default setting is 1
• Sec. V – secondary voltage in the PT ratio Factory default setting is 1
• Prim. I – Primary current for the power clamp adapters (L1, L2, L3) Factory default setting is 1000
• Prim. I
- Primary current for the neutral clamp adapter Factory default setting is 100
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To adjust the PT/CT settings:
1) Use the up [5] and down [6] arrow buttons to highlight PT/CT and press the enter [ENTER] button.
This brings up the first PT/CT setting (Prim. V)
2) In the lower right-hand corner of the screen is a numerical keypad. Use the up [5], down [6], left
[3], and right [4] arrow buttons to move the cursor through the keypad. The existing numerical
value for the Prim. V setting will be highlighted.
3) Press the set [SET] button to select a new numerical value. You can change to a negative number
by selecting the +
symbol. A decimal point may also be used by selecting the decimal point [.].
4) To delete a number, select the backspace icon [←] and press the set button.
5) After the Prim. V value has been selected, press the enter [ENTER] button. This brings up the next
PT/CT option, Sec. V. The existing numerical value will be highlighted.
6) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
keypad. Press the set [SET] button to select a new numerical value. You can change to a negative
number by selecting the +
symbol. A decimal point may also be used by selecting the decimal point
[.]. To delete a number, select the backspace icon [←] and press the set button.
7) After the Sec. V value has been selected, press the enter [ENTER] button. This brings up the next
PT/CT option, Prim. I. The existing numerical value will be highlighted.
8) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
keypad. Press the set [SET] button to select a new numerical value. You can change to a negative
number by selecting the +
symbol. A decimal point may also be used by selecting the decimal point
[.]. To delete a number, select the backspace icon [←] and press the set button.
9) After the Prim. I value has been selected, press the enter [ENTER] button. This brings up the next
PT/CT option, Prim. I
. The existing numerical value will be highlighted.
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10) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
keypad. Press the set [SET] button to select a new numerical value. You can change to a negative
number by selecting the +
symbol. A decimal point may also be used by selecting the decimal point
[.]. To delete a number, select the backspace icon [←] and press the set button.
11) After the Prim. I
value has been selected, press the enter [ENTER] button to save the changes and
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return to the measure menu.
12) To skip a setting without changing the value, press either the escape [ESC] or enter [ENTER] button.
To return to the setup menu, press either the left arrow [3] or escape [ESC] button.
5.2.2 Record
Record is the section of the menu for setting up the analyzer’s recording options.
PERIOD
Record Menu
TRIGGER
NAME
PARAM
Period: This is the recording period for data collection. The analyzer records the average values over
the recording period at the end of every period. Harmonics values are captured at the end of every
recording period. Throughout the recording period, the analyzer will also monitor the line to capture any
minimum and maximum values. These values will be recorded at the end of every recording period and
then reset to capture new minimum and maximum values in the next recording period.
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Period setting format:
• hour:minute:second – The available recording period is from 1 second up to 4 hours Factory
default setting is 15 min.
To change the recording period:
1) Use the up [5] and down [6] arrow buttons to highlight PERIOD and press the enter [ENTER]
button. This brings up the existing period setting.
2) The hour setting is highlighted. Use the up [5] and down [6] arrow buttons to adjust the setting.
Chose from 0 to 4 hours.
3) Press the right arrow [4] button to move to the minute setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 59 minutes.
4) Press the right arrow [4] button to move to the second setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 59 seconds.
5) Press the enter [ENTER] button to save your changes and return to the record menu.
6) Press the escape [ESC] button to return to the record menu without saving any changes.
Trigger: This is the measurement values or time values that will trigger data collection to begin. When a
level trigger is selected, the analyzer will record data that rises above or falls below the selected
maximum and minimum parameter value. When a time trigger is selected, the analyzer will begin
recording at the date/time on setting and end recording at the date/time off setting. The trigger can be a
level trigger, a time trigger or both.
Level settings:
• Param. – measurement parameter that will trigger data recording
o Auto – automatic recording, no level trigger Factory default setting
o KVA – apparent power
o Hz - frequency
o PF – power factor
o KvarC – capacitive reactive power
o KvarL – inductive reactive power
o KW – true power
o A - current
o Vp-n – phase-neutral voltage
o Vp-p – phase-phase voltage
• Max – maximum parameter value, recording begins when measurement rises above this value
• Min - minimum parameter value, recording when measurement falls below this value
To change the level settings:
1) Use the up [5] and down [6] arrow buttons to highlight LEVEL and press the enter [ENTER]
button. This brings up a selection box with the existing level selection highlighted.
2) Use the up [5] and down [6] arrow buttons to move through the available level parameters.
3) After the parameter has been selected, press the enter [ENTER] button. This brings up the max
selection box. The existing maximum value will be highlighted.
4) In the lower right-hand corner of the screen is a numerical keypad. Use the up [5], down [6], left
[3], and right [4] arrow buttons to move the cursor through the keypad.
5) Press the set [SET] button to select a new numerical value. You can change the maximum value to
a negative number by selecting the +
symbol. A decimal point may also be used by selecting the
decimal point [.].
6) To delete a number, select the backspace icon [←] and press the set button.
7) After the maximum value has been selected, press the enter [ENTER] button. This brings up the
min selection box. The existing minimum value will be highlighted.
8) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
numerical keypad.
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9) Press the set [SET] button to select a new numerical value. You can change the minimum value to a
negative number by selecting the +
symbol. A decimal point may also be used by selecting the
decimal point [.].
10) To delete a number, select the backspace icon [←] and press the set button.
11) After the minimum value has been selected, press the enter [ENTER] button. This will return the
user to the trigger menu.
12) To skip a setting without changing the value, press either the escape [ESC] or enter [ENTER]
button.
Time settings:
• Time on: day/month/year, hour:minute:second – set the date and time to begin recording, all zeros in
the date and time indicate that no time trigger has been selected Factory default setting is
00/00/00, 00:00:00
• Time off: day/month/year, hour:minute:second – set the date and time to end recording, all zeros in
the date and time indicate that no time trigger has been selected Factory default setting is
00/00/00, 00:00:00
To change the time settings:
1) Use the up [5] and down [6] arrow buttons to highlight TIME and press the enter [ENTER] button.
This brings up the time on selection box.
2) The day setting is highlighted. Use the up [5] and down [6] arrow buttons to adjust the setting.
Chose from 0 to 31 days.
3) Press the right arrow [4] button to move to the month setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 12 months.
4) Press the right arrow [4] button to move to the year setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 00 to 99.
5) Press the right arrow [4] button to move to the hour setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. The hour setting is a military time format, so chose from 0 to 24 hours.
6) Press the right arrow [4] button to move to the minute setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 59 minutes.
7) Press the right arrow [4] button to move to the second setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 59 seconds.
8) Press the enter [ENTER] button to save your changes and return to the record menu.
9) Press the escape [ESC] button to return to the record menu without saving any changes.
To return to the setup menu, press either the left arrow [3] or escape [ESC] button.
Name: This is the name of the file and the file type created by the user for data recording. Up to 8
alphanumeric characters can be used to describe the contents of the file. Files can be either a linear or
cyclical file type. In a linear file type, the analyzer will continue recording until the 1MB of memory is full.
In a cyclical file type, the analyzer will begin overwriting the first data collected with the most recent data.
This is often called first in first out (FIFO) memory.
File type options:
• Linear: when memory is full, analyzer will stop recording Factory default setting
• Cyclical: when memory is full, analyzer will overwrite first data with most recent data
Note: When a cyclical file type is selected, the analyzer can only hold one file in its memory. In a linear
file type, several different files may be saved in the internal memory.
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To choose a file name and file type::
1) Use the up [5] and down [6] arrow buttons to highlight NAME and press the enter [ENTER] button.
This brings up a selection box with the existing file name highlighted.
2) Below the selection box is a keyboard and numerical keypad. Use the up [5], down [6], left [3],
and right [4] arrow buttons to move the cursor through the keypad.
3) Press the set [SET] button to select a new alphanumerical value.
4) Select caps lock [LOCK] to toggle between upper and lower case letters.
5) Insert a space by selecting the space bar [SPAC].
6) To delete a character, select the backspace icon [←] and press the set button.
7) After the name has been selected, press the enter [ENTER] button. This will save the name and
bring up the file type selection box. To select the file type without changing the name, press either
the escape [ESC] button.
8) Use the up [5] and down [6] arrow buttons to choose either linear or cyclical and press enter.
9) The user will be returned to the record menu.
10) If the file type has been changed from either cyclical to linear, or linear to cyclical, the analyzer’s
memory will need to be formatted. In these instances, the analyzer will ask the user if they wish to
format the memory. Use the left [3] and right [4] arrow buttons to choose either yes or no, and
press enter.
11) If NO is selected, the analyzer will remain in the programming menu as this change cannot be made
without formatting the memory. Change the file type back to the original setting before exiting the
programming menu if you do no wish to format the memory.
12) If YES is selected, the analyzer will format the memory and return the analyzer to the display
screens. Any data that has been previously recorded on this file will be lost.
13) Press the escape [ESC] button to return to the record menu without saving any changes.
Note: If a duplicate file name is chosen, the analyzer will verify that the user wishes to overwrite the file.
Note: In a cyclical file type, all memory is allocated to the new file. All files must be downloaded prior to
the setup of a cyclical file.
To return to the setup menu, press either the left arrow [3] or escape [ESC] button.
Param: This is the section of the menu where the user selects the measurement parameters that will be
recorded by the analyzer. Any number of instantaneous, minimum, maximum and harmonics values can
be selected. The factory default values will be based on the measurement type selected. For example, if
a single-phase measurement type is selected, than the analyzer will automatically select all of the L1
measurement values. See section 4.1 for the available measurement parameters for the various
measurement types.
Available measurement options:
• Instantaneous measurements- all power and energy parameters available for the selected
measurement type
• Maximum measurements – all power parameters available for the selected measurement type
• Minimum measurements - all power parameters available for the selected measurement type
• Harmonic measurements –voltage and/or current harmonics measurements to either the 30
th
or 50th
harmonic
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To choose the measurement parameters:
1) Use the up [5] and down [6] arrow buttons to highlight PARAM and press the enter [ENTER]
button. This brings up a grid showing all of the available instantaneous parameters.
2) The selected parameters will be highlighted in black.
3) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
parameters.
4) Pressing the set [SET] button selects, or de-selects a parameter. Pressing set while on “CLEAR
ALL“ at the bottom of the display clears all parameters.
5) After the desired instantaneous parameters have been selected, move the cursor to the upper lefthand corner [INST] and press set . This will bring up a grid showing all of the available maximum
parameters. The selected parameters will be highlighted in black and MAX will be displayed in the
upper left-hand corner of the screen.
6) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
available maximum parameters.
7) Pressing the set [SET] button selects, or de-selects a parameter. Pressing set while on “CLEAR
ALL“ at the bottom of the display clears all parameters.
8) After the desired maximum parameters have been selected, move the cursor to the upper left-hand
corner [MAX] and press set . This will bring up a grid showing all of the available minimum
parameters. The selected parameters will be highlighted in black and MIN will be displayed in the
upper left-hand corner of the screen.
9) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
available minimum parameters.
10) Pressing the set [SET] button selects, or de-selects a parameter. Pressing set while on “CLEAR
ALL“ at the bottom of the display clears all parameters.
11) After the desired maximum parameters have been selected, move the cursor to the upper left-hand
corner [MIN] and press set . This will bring up a grid showing all of the available minimum
parameters. The selected parameters will be highlighted in black and HARM will be displayed in the
upper left-hand corner of the screen.
12) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
parameters.
13) After the desired parameters have been selected, select the desired order of harmonics. Choosing
30 selects the individual harmonics to the 30th and 50 selects the individual harmonics to the 50th.
14) Press the enter [ENTER] button to save your changes and return to the record menu.
15) Press the escape [ESC] button to return to the record menu without saving any changes.
To return to the setup menu, press either the left arrow [3] or escape [ESC] button.
5.2.3 Comm
Comm is the section of the menu to set the communication protocols for downloading data. During this
process, the PowerVision™ software will auto-detect the analyzer at all possible baud rates, so it is not
necessary to change these parameters, however a faster baud rate may be desired.
Communication parameters:
• Baud rate: choose from 1200, 2400, 4800, 9600, 19200, 38400 Factory default setting is 9600
• Parity: choose from no, odd, even Factory default setting is no
• Length: this is set at 8 Factory default setting is 8
• Stop bits: chose from 1, 2 Factory default setting is 1
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To change the communication parameters:
1) Use the up [5] and down [6] arrow buttons to highlight COMM and press the enter [ENTER] button.
This brings up the communication parameter selection box.
2) The baud rate setting is highlighted. Use the up [5] and down [6] arrow buttons to adjust the
setting. Chose from 1200 to 38400.
3) Press the right arrow [4] button to move to the parity setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose either no, odd or evern.
4) Press the right arrow [4] button to move to the stop bits setting. The length setting will be skipped,
because it cannot be changed.
5) Use the up [5] and down [6] arrow buttons to adjust the stop bits setting. Chose either 1 or 2.
6) Press the enter [ENTER] button to save your changes and return to the setup menu.
7) Press the escape [ESC] button to retrun to the setup menu without saving any changes.
NOTE: Nearly every computer uses the fastest speed selectable, which is 38400 baud. A slower speed
will substantially increase the time required to download a file to your computer. All modern PCs will
support a baud rate of 38400. Try the fastest rate first.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
5.2.4 Clock
Clock is the section of the menu to set the date and time information. The user can select the date
format, choosing from either American or European format, and set the date and time.
Clock type options:
• dd/mm/yy: European date format
• mm/dd/yy: American date format Factory default setting
To change the clock type and date/time information:
1) Use the up [5] and down [6] arrow buttons to highlight CLOCK and press the enter [ENTER]
button. This brings up the clock type selection box.
2) Use the up [5] and down [6] arrow buttons to adjust the setting. Chose either date format and
press the enter [ENTER] button. This brings up the clock setttings.
3) If you chose the American date format, the month setting will be highlighted. Use the up [5] and
down [6] arrow buttons to adjust the setting. Chose from 0 to 12 months. If the European date
format was selected, the first setting will be the day setting.
4) Press the right arrow [4] button to move to the day setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 31 days. If the European date format was selected, the
second setting will be the month setting.
5) Press the right arrow [4] button to move to the year setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 00 to 99.
6) Press the right arrow [4] button to move to the hour setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. The hour setting is a military time format, so chose from 0 to 24 hours.
7) Press the right arrow [4] button to move to the minute setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 59 minutes.
8) Press the right arrow [4] button to move to the second setting. Use the up [5] and down [6] arrow
buttons to adjust the setting. Chose from 0 to 59 seconds.
9) Press the enter [ENTER] button to save your changes and return to the setup menu.
10) Press the escape [ESC] button to retrun to the setup menu without saving any changes.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
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5.2.5 Password
Password is the section of the menu to customize the password to protect the analyzer from unauthorized
access. If you change the password, and forget the change, you will have to consult the factory for assistance in retrieving the new password.
To change the password:
1) Use the up [5] and down [6] arrow buttons to highlight PASSWORD and press the enter [ENTER]
button. This brings up the password selection box.
2) The analyzer will prompt the user for the old password.
3) The password is 4 buttons pressed in sequence. The default password is left arrow [3], set [SET],
up arrow [5], set [SET].
4) If the password is entered incorrectly, the analyzer will display an error message “Incorrect old
password” and return the user to the setup menu.
5) After the password is entered correctly, the analyzer will prompt the user for the new password.
6) The password is 4 buttons pressed in sequence. Press any 4 buttons (except for the on and off
buttons) to be used as the new password.
7) The analyzer will prompt the user to confirm the new password.
8) If the password is entered incorrectly, the analyzer will display an error message “Incorrect check
password” and return the user to the setup menu.
9) If the new password is confirmed, the analyzer will return to the setup menu, and the new password
will be saved.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
5.2.6 Recall
Recall is the section of the menu to return the analyzer to the factory default settings.
To restore factory default settings:
1) Use the up [5] and down [6] arrow buttons to highlight RECALL and press the enter [ENTER]
button. This brings up the recall setting box.
2) The analyzer will prompt the user to set the settings back to the factory standard.
3) Use the left [3] and right [4] arrow buttons to choose either yes or no, and press enter.
4) If YES was selected, the user will be returned to the setup menu, and all settings will be returned to
the factory default settings.
5) If NO was selected, the user will be returned to the setup menu without changes.
Note: The password will not be changed back to the factory default by using recall.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
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5.3 Display menu
The display menu consists of three menu options, which allow the user to customize the display screens
accessed while using the analyzer as a hand-held power quality meter. Each menu is discussed
separately in this section.
To access the display menu, use the up [5] and down [6] arrow buttons to move the cursor through the
available parameters of the programming menu, select DISPLAY and press the enter [ENTER] button.
BAR GR.
EXPAND
CONTRAST
To enter a menu, use the up [5] and down [6] arrow buttons to move through the available parameters
and press the enter [ENTER] button.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
5.3.1 Bar gr.
Bar gr. is the section of the menu to adjust the bar graph screen. This screen gives a graphic
representation of a single parameter on all three-phases simultaneously. These are instantaneous
measurements and will change in real-time as the system changes.
To change the parameter and the bar graph scale:
1) Use the up [5] and down [6] arrow buttons to highlight BAR GR. and press the enter [ENTER]
button. This brings up the bar graph parameter selection box with the existing selection highlighted.
2) Use the up [5] and down [6] arrow buttons to move through the available parameters.
3) After the parameter has been selected, press the enter [ENTER] button. This brings up the zero-
scale selection box. The existing zero-scale selection will be highlighted.
4) In the lower right-hand corner of the screen is a numerical keypad. Use the up [5], down [6], left
[3], and right [4] arrow buttons to move the cursor through the keypad.
5) Press the set [SET] button to select a new numerical value. You can change the zero-scale to a
negative number by selecting the +
selecting the decimal point [.].
6) To delete a number, select the backspace icon [←] and press the set button.
7) After the zero-scale value has been selected, press the enter [ENTER] button. This brings up the
full-scale selection box. The existing full-scale selection will be highlighted.
8) Press the set [SET] button to select a new numerical value. You can change the full-scale to a
negative number by selecting the +
selecting the decimal point [.].
Display Menu
symbol. A decimal point may also be used in the zero-scale by
symbol. A decimal point may also be used in the full-scale by
30
9) After the full-scale value has been selected, press the enter [ENTER] button. This will return the
user to the bar graph screen and the new scaling will be applied to the graph. If the full-scale value
entered is lower than the zero-scale value, the analyzer will display the “ZERO must be lower than
FULL SCALE” error message at the bottom of the screen. This message will disappear after a few
seconds and return the user to the zero-scale selection.
10) Press the enter [ENTER] button to save your changes and return to the display menu.
Note: This screen can also be changed directly from the display while the analyzer is being used as a
hand-held power quality meter. (See section 4.3 for more information)
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
5.3.2 Expand
Expand is the section of the menu to adjust the exploded view screen. In this screen, any three
parameters can be selected and displayed in large characters for easy viewing. These are instantaneous
measurements and will change in real-time as the system changes.
Note: Any three parameters can be selected regardless of the measurement type, or parameters chosen
for data recording.
31
To change these parameters:
1) Use the up [5] and down [6] arrow buttons to highlight EXPAND and press the enter [ENTER]
button. This brings up a grid showing all of the available parameters.
2) The selected parameters will be highlighted in black.
3) Use the up [5], down [6], left [3], and right [4] arrow buttons to move the cursor through the
parameters.
4) Pressing the set [SET] button selects, or de-selects a parameter. Pressing set while on “CLEAR
ALL “ at the bottom of the display clears all parameters.
5) Only three parameters may be chosen. If an additional parameter is accidentally selected, the
analyzer will display the “OUT OF RANGE” error message at the bottom of the screen. This
message will disappear after a few seconds.
6) After all three parameters have been selected, press the enter [ENTER] button to accept the new
parameters. This will return the user to the exploded view screen and the new parameters will be
displayed on the screen.
7) Pressing the escape [ESC] button will return the user to the display menu without modifying the
parameters.
8) Press the enter [ENTER] button to save your changes and return to the display menu.
Note: This screen can also be changed directly from the display while the analyzer is being used as a
hand-held power quality meter. (See section 4.2 for more information)
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
5.3.3 Contrast
Contrast is the section of the menu to adjust the screen contrast. This adjustment helps the user view the
display in direct sunlight or dark conditions.
To adjust the contrast:
1) Use the up [5] and down [6] arrow buttons to highlight CONTRAST and press the enter [ENTER]
button. This brings up the contrast adjustment box.
CONTRAST
LOW HIGH %
2) Use the left [3] and right [4] arrow buttons to increase or decrease the display contrast. The
contrast will change while you are making the adjustment.
3) Pressing the escape [ESC] button will return the user to the display menu without modifying the
parameters.
4) Press the enter [ENTER] button to save your changes and return to the display menu.
Note: The contrast can also be adjusted directly from the display screen. See section 2.2 of this
instruction manual for more information.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
32
5.4 Run menu
From the run menu, the user can start or stop data collection. The status of data collection is shown in
the on the display screen. If data is being collected, RECORD will be displayed at the bottom of the
screen. If data collection has been stopped, STOP will be displayed in the lower left-hand corner of the
screen. These messages will be displayed on all display screens except for the setup screen.
To change the data collection status:
1) Use the up [5] and down [6] arrow buttons to move the cursor through the available parameters of
the programming menu, select RUN and press the enter [ENTER] button.
2) Use the up [5] and down [6] arrow buttons to toggle between RUN and STOP. Selecting run will
begin/resume data collection and selecting stop will halt data collection.
3) Pressing the escape [ESC] button will return the user to the main programming menu without
modifying the parameters.
4) Press the enter [ENTER] button to save your changes and return to the main programming menu.
5.5 Files menu
The files menu consists of three menu options to view all of the files in the directory, delete old files, and
format the memory. Each menu is discussed separately in this section.
To access the files menu, use the up [5] and down [6] arrow buttons to move the cursor through the
available parameters of the programming menu, select FILES and press the enter [ENTER] button.
DIR
Files Menu
DELETE
FORMAT
To enter a menu, use the up [5] and down [6] arrow buttons to move through the available parameters
and press the enter [ENTER] button.
To return to the main programming menu, press either the left arrow [3] or escape [ESC] button.
5.5.1 DIR
Directory is the section of the menu to access the listing of files that are stored in the analyzer’s internal
memory.
To view the directory:
1) Use the up [5] and down [6] arrow buttons to highlight DIR and press the enter [ENTER] button.
The analyzer will bring up the directory.
33
2) The directory displays the file name, file extension, file size, date that the file was started, and the
length of time for each file listed in the directory.
3) The available memory will also be listed at the bottom of the screen.
4) Pressing the escape [ESC] button will return the user to the files menu.
5.5.2 Delete
Delete is the section of the menu to delete specific files that are stored in the analyzer’s internal memory.
To delete a file:
1) Use the up [5] and down [6] arrow buttons to highlight DELETE and press the enter [ENTER]
button. The analyzer will bring up the directory.
2) The directory displays the file name, file extension, and file size for each file listed in the directory.
3) The available memory will also be listed at the bottom of the screen.
4) Use the up [5] and down [6] arrow buttons to move the cursor through the available files and press
the enter [ENTER] button.
5) The analyzer will ask for a confirmation before deleting the file.
6) Use the left [3] and right [4] arrow buttons to toggle between YES and NO and press enter.
7) Choosing no will return the analyzer to the directory to select a file for deletion.
8) Choosing yes will remove the file from the analyzer’s memory and return the analyzer to the directory
to select another file for deletion.
9) Pressing the escape [ESC] button will return the user to the files menu.
34
5.5.3 Format
Format is the section of the menu to completely format the analyzers menu. It will erase all files and
eliminate any memory errors that may exist.
To format the memory:
1) Use the up [5] and down [6] arrow buttons to highlight FORMAT and press the enter [ENTER]
button. The analyzer will ask for a confirmation before proceeding.
2) Use the left [3] and right [4] arrow buttons to toggle between YES and NO and press enter.
3) Choosing no will return the analyzer to the file menu without formatting the memory.
4) Choosing yes will format the memory and return the analyzer to the file menu.
5.6 Clear menu
The clear menu consists of 2 menu options to reset the energy counters and maximum and minimum
values saved on the display of the analyzer. Clearing these values will only affect the displayed
measurements. It will not affect data collected by the analyzer.
To access the clear menu, use the up [5] and down [6] arrow buttons to move the cursor through the
available parameters of the programming menu, select CLEAR and press the enter [ENTER] button.
ENERGY
Clear Menu
MAX/MIN
To enter a menu, use the up [5] and down [6] arrow buttons to move through the available parameters
and press the enter [ENTER] button.
5.6.1 Energy
Energy is the section of the menu to clear the energy values in the main display screen. These values
will begin at zero, and start to accumulate when the analyzer is returned to the display screen.
To clear the energy values:
1) Use the up [5] and down [6] arrow buttons to highlight ENERGY and press the enter [ENTER]
button. The analyzer will ask for a confirmation before proceeding.
2) Use the left [3] and right [4] arrow buttons to toggle between YES and NO and press enter.
3) Choosing no will return the analyzer to the clear menu without clearing the energy values.
4) Choosing yes will clear the energy values and return the analyzer to the clear menu.
35
5.6.2 Max/min
Max/min is the section of the menu to clear the maximum and minimum values in the main display
screen. These values will begin at when the analyzer is returned to the display screen.
To clear the maximum and minimum values:
1) Use the up [5] and down [6] arrow buttons to highlight MAX/MIN and press the enter [ENTER]
button. The analyzer will ask for a confirmation before proceeding.
2) Use the left [3] and right [4] arrow buttons to toggle between YES and NO and press enter.
3) Choosing no will return the analyzer to the clear menu without clearing the max and min values.
4) Choosing yes will clear the max and min values and return the analyzer to the clear menu.
5.7 Off menu
From the off menu, the user can enable the password to protect the power analyzer from accidental shut
off. By activating the turn-off password protection, the user will be prompted for a password before the
analyzer can be shut down.
To change the password protection status:
1) Use the up [5] and down [6] arrow buttons to move the cursor through the available parameters of
the programming menu, select OFF and press the enter [ENTER] button.
2) The analyzer will prompt the user to activate the password protection
3) Use the left [3] and right [4] arrow buttons to toggle between YES and NO and press enter.
5) Choosing no will deactivate the turn-off password protection and return the unit to the main
programming menu.
6) Choosing yes will activate the turn-off password protection and return the unit to the main
programming menu.
6. Hooking up the analyzer
Before hooking up the 800 series power analyzer, please observe the following:
• The unit has sufficient battery life for the duration of the test, or is connected to line power.
• Supply voltage is connected to a properly grounded outlet.
• Maximum input voltage does not exceed analyzer ratings:
o 500VAC phase to neutral
o 866VAC phase-phase
• Clamp adapter range sufficient for the measurement circuit
o Does not exceed maximum current rating of adapter
o Does not fall below 10% of current rating of adapter
• Voltage leads being used were supplied with the instrument. Replacement leads are available from
IDEAL INDUSTRIES
• Power analyzer has been setup for the electrical system under test
36
To make a measurement with the power analyzer:
1) Connect the power supply to the power analyzer and to a properly grounded outlet using the factory
supplied cables. (Section 3.3)
2) Insert the voltage leads into the analyzer, and match the color-coded current transformers with the
leads to help simplify the connection process. Insert the current transformer leads into the proper
input connectors on the Model 806. (Section 2.2)
3) Connect the voltage leads and current clamp adapters to the electrical system as shown in the
following sections. (Sections 6.1.1 – 6.1.5)
4) Turn the instrument on and select the harmonics program. (Section 3.1)
5) Verify that the voltage and current ratios are correct on the setup screen (Section 4.5)
The power analyzer has been pre-configured at the factory to begin recording data immediately. Simply
change the analyzer to run mode (Section 5.4) and begin collecting data using the factory default
settings. If you are unsure as to what these factory settings are, refer to the quick reference guide,
located in section 12 of this instruction manual. It contains a complete listing of all programming
parameters and the factory default settings.
If you are using the power analyzer for the first time, we recommend that you follow the following
procedure for creating a new file for recording data:
1) Turn the instrument on and select the harmonics program. (Section 3.1)
2) Verify that the measurement type and voltage and current ratios are correct on the setup screen.
(Section 4.5)
3) If not correct, change these parameters in the measure menu. (Section 5.2.1)
4) Select the desired recording period for the analysis that you are conducting. (Section 5.2.2)
5) Create a file name and select the appropriate file type. (Section 5.2.2)
6) Choose the desired measurement parameters for the analysis that you are conducting. (Section
5.2.2)
Check the setup screen after programming the analyzer to verify that the available recording time is
sufficient for your needs. (Section 4.5) If the time is not sufficient, you can setup trigger points to
customize your data collection, capturing only the data that falls outside normal operating parameters.
(Section 5.2.2)
39
8. Downloading data to your computer
After the power analyzer has successfully recorded the data, then the data needs to be transferred to a
computer for analysis. This process is primarily controlled by the PowerVision™ analysis software.
To download data to the PowerVision™ software:
1) Plug the power cord into the power supply/RS-232 interface.
2) Connect the analyzer to the power supply/RS-232 interface with the interface cable.
3) Connect the power supply/RS-232 interface to the serial input on your computer with the RS-232
cable
4) Turn the analyzer on.
5) Verify that the analyzer is not
recording data.
6) Verify that the analyzer is not in the programming menu.
7) Launch the PowerVision software. If this has not been loaded onto your computer, place the
enclosed PowerVision CD into your CD ROM drive. It will automatically launch the interactive demo
and give the user the option to load the PowerVision software.
8) Go into the drop-down files menu and select portable devices, or press the icon to search for a
connected device.
9) The software will activate the auto-detect feature and begin scanning all communication ports at all
baud rate speeds to find the power analyzer.
10) If no devices are detected, the software will give an error message. Re-connect the analyzer and
step through this process again.
11) Once the connection has been made, the software will display the directory of files in the analyzer’s
memory.
40
12) Using the mouse, select a file to be downloaded and left-click on the download button.
13) The software will bring up the file box, giving the user the opportunity to change the file name or
choose the file location.
14) To save the file without any changes, left-click on the save button.
15) To change the name, highlight the file name and type in a new file name.
16) To change the file location, left-click on the down arrow next to the save in: selection box. This brings
up a drop-down menu with the entire file directory of your computer.
17) Double-left-click on the appropriate file location and left-click on the save button.
18) The software will then download the directory to your computer. This may take a few minutes,
depending on the size of the file.
19) Repeat this process until all available files have been downloaded onto the computer.
If problems exists during the download process, check the following:
1) The cables used to connect the power supply/RS-232 interface to the analyzer and computer are the
cables supplied with the power analyzer.
2) The power supply/RS-232 interface has been connected to a properly grounded receptacle.
3) No other devices are on the comm. Port.
4) If the device is a laptop computer, check that the infrared port has been disabled.
5) The analyzer is not
in run mode.
6) The file directory of the analyzer has programs to download.
7) The analyzer is not
in the programming menu. You must be in the display screens to download data.
If problems persist, please contact our Technical Hotline at 877-201-9005 for assistance.
41
9. PowerVision™ software and interactive demo
A CD with the PowerVision™ Analysis Software and Interactive Demo has been included with the power
analyzer. This disk has an interactive demo to help the user get more familiar with the power analyzer
and PowerVision software.
The demo has an auto-run feature that will launch the interactive program immediately after it has been
inserted into the CD ROM drive. The program has four sections; an introductory section discussing the
features and benefits of the power analyzer, a display section that goes through the various display
screens and using the power analyzer as a portable hand-held analyzer, a programming section that
walks through some of the basic programming setup, and a software section that demonstrates the
capabilities of the PowerVision software.
The PowerVision software can be downloaded directly from this demo. It is complete with sample data,
allowing the user to try out the software and get a better understanding of what they can do with the data
before they take actual measurements.
10. Technical specifications
Supply voltage: 80-265VAC
Frequency: 50-60 Hz
Burden: 8 VA
Operation temperature: 0 to 50 ºC
Measuring circuit: 3Φ 3-wire, 3Φ 4-wire, 3PT-2CT, 1Φ, 1Φ Split
Safety: Category III - 600 V, as per EN 61010
Internal memory: 1 MB
RS-232 output: Serial type output
Baud rate: 1200, 2400, 4800, 9600, 19200, 38400 (user selectable)
Voltage measurement:
Measuring range: 20-500 VAC (phase-neutral)
20-866 VAC (phases-phase)
Frequency: 45-65 Hz
Current measurement:
Phase current range: 15-1000AAC*
Neutral current range: 1.5-100AAC**
Accuracy:
Voltage ..................................... 0.5 % of readout ± 2 digits
Current ..................................... 0.5 % of readout ± 2 digits
Active power ............................. 1.0 % of readout ± 2 digits
Reactive power.......................... 1.0 % of readout ± 2 digits
Measuring conditions to assure accuracy:
- Temperature range between 5 ºC and 45 ºC
- Power factor between 0.5 and 1
- Measuring range between 5 % and 100 %
* Based on supplied clamp adapter. Other clamp adapters available (Section 11)
** Catalog #61-807 supplied with 100AAC clamp adapter. Other clamp adapters available (Section 11)
42
Mechanical Specifications:
Display: 160 x 160 pixel backlit display
Case dimensions: 220 x 60 x 130 mm
Weight: 0.8 kg.
Relevant Standards:
EN 60664,EN 610110, EN 61036, VDE 110, UL 94
EM EMISSION.
EN 61000-3-2 (1995), Harmonics.
−
−
EN 61000-3-3 (1995), Fluctuations in voltage
EN 50081-2 (1993), Industrial emission:
−
−
EN 55011 (1994): Conducted (EN 55022 - Class B).
− EN 55011 (1994): Radiated (EN 55022 - Class A).
EM IMMUNITY.
EN 50082-2 (1995), Industrial immunity.
−
−
EN 61000-4-2 (1995), ESD.
ENV 50140 (1993), EM Radiated field of RF.
−
− EN 61000-4-4 (1995), EFT burst.
− ENV 50141 (1993), RF common mode.
− EN 61000-4-8 (1995), 50 Hz H-field.
− EN 50082-1 (1997), Residential Immunity.
− EN 61000-4-5 (1995), Surges.
− EN 61000-4-11 (1994), Dips, Interruptions.
11. Optional programs and accessories
Expand the capabilities of your 800 series analyzers with one of the optional programs:
#61-815 Disturbances Program
• Tracks sags, swells and transients
• Programmable trigger points
• Captures individual waveforms for analysis
#61-816 Check-Meter Program
• Monitors performance of in-line energy meters
• Stores data and provides comparison against mechanical or electrical meters
• Monitors key power and energy measurements
#61-817 Fast-Check Program
• Captures transient waveforms
• Monitors key power and energy measurements
43
Additional power clamp adapters are available to extend the current capabilities of your 800 series power
analyzer:
#61-810 200/2000AAC Power
Replacement test leads, carrying cases and power supplies are also available.
• Selectable 200/2000AAC
measurements
• Set of 3
#61-811 1000AAC Power
• 1000AAC measurements
• Set of 3
#61-812 500AAC Power
• 500AAC measurements
• Set of 3
#61-813 100AAC Power
• 100AAC measurements
• Set of 1
#TL-805 Power Analyzer Test
• Test leads with alligator clips
• Set of 4
#PS-352 RS-232 Interface/
• Includes power supply/RS-232
interface, power cord, RS-232
communication cable, analyzer
communication cable
Clamp Adapter
Clamp Adapter
Clamp Adapter
Clamp Adapter
Lead Set
Power Supply
#61-814 5AAC Power
Clamp Adapter
• 5AAC measurements
• Set of 1
#61-330 1000AAC Flexible
Clamp Adapter
• 1000AAC measurements
• Use with #61-466 power analyzer
adapter
• 24” (61cm) sensor length
• Set of 1
#61-330 300/3000AAC Flexible
Clamp Adapter
• Selectable 300/3000AAC
measurements
• Use with #61-466 power analyzer
adapter
• 36” (91cm) sensor length
• Set of 1
#C-1000 Carrying Case
• Case holds analyzer, 1000AAC
clamp adapters, power supply, test
leads and all cables.
#C-2000 Carrying Case
• Case holds analyzer, 200/2000AAC
clamp adapters, power supply, test
leads and all cables.
44
12. Quick Reference Guide
Setup
Menu
Submenu
selections
Description Options Default
Setting
Measure This menu is for setting up the voltage and current measurement
options
Wiring The circuit type being
measured
3Φ 3-wire, 3Φ 4-wire,
3PT-2CT, 1Φ, 1Φ Split
3Φ 4-wire
PT/CT The ratios for PT & CT transformers
Prim V The primary value of the
Numerical value 1V
voltage ratio
Sec V The secondary value of
Numerical value 1V
the voltage ratio
Prim I The primary value of the
Numerical value 1000A
current clamps
Prim I
The primary value of the
N
Numerical value 100A
neutral current clamp
Record This menu is for setting up the recording parameters
Period The recording period for
hh:mm:ss (1s to 4h) 15 minutes
data collection
Trigger Measurement value or time values that will trigger data collection to
begin
Level Setting the maximum and
minimum thresholds for
the trigger
Time Setting the on/off date and
time thresholds for the
Measurement
Auto
parameter and
numerical value
mm/dd/yy, hh:mm:ss 00/00/00,
00:00:00
trigger
Name Name and file type for the record
Name File name Alpha/numeric value STD-PROG
Type File type Cyclical, linear Cyclical
Param Select the parameters that will be recoded during data collection
Inst Select the instantaneous
values to be recorded
Vp-p, Vp-n, A, kW,
kvarL, kvarC, PF, Hz,
kVA, A
, kWh, kvarhL,
N
All
kvarhC
Max Select the maximum
values to be recorded
Min Select the minimum
values to be recorded
Harm Select the level of
Vp-p, Vp-n, A, kW,
kvarL, kvarC, PF, Hz,
kVA, A
N
Vp-p, Vp-n, A, kW,
kvarL, kvarC, PF, Hz,
kVA, A
V, A to 30
N
th
or 50th All to 50th
All
All
harmonics to be recorded
Comm Select the communication
protocol for downloading
Baud rate, parity,
length, stop bits
9600, No, 8, 1
data
Clock Set date and time information
Date Select either European or
mm/dd/yy or dd/mm/yy mm/dd/yy
American date format
Date/time Change date and/or time mm/dd/yy , hh:mm:ss
Password Change password Old password, new
password, confirm new
Recall Return 806 to factory
Yes, no
[3], [SET],
[5], [SET]
settings
45
Display Menu Description Options Default
Setting
Bar gr. Set the parameters for the bar graph screen
Bar Gr. Select the measurement
for the graph
Zero Set the zero-scale vale of
Vp-p, Vp-n, A, kW,
Vp-n
kvarL, kvarC, PF
Numerical value 0
the bar graph
Full scale Set the full-scale value of
Numerical value 300
the bar graph
Expand Select three parameters
for the exploded view
screen
Vp-p, Vp-n, A, kW,
kvarL, kvarC, PF, Hz,
kVA, A
, kWh, kvarhL,
N
Vp-n (L1),
Vp-n (L2),
Vp-n (L3)
kvarhC
Contrast Adjust the display contrast Decrease/increase contrast
Run Menu Description Options Default
Setting
Run/stop Start/stop data collection Run/stop Stop
Files Menu Description Options Default
Setting
Dir Display the file directory of the power analyzer’s memory
Delete Delete a file from the analyzer’s memory
Format Format the power analyzer’s memory
Clear Menu Description Options Default
Setting
Energy Clear all energy counters on the display
Max/min Clear all min/max values on the display
Off Menu Description Options Default
Setting
Password Set the password
On/off On
protection on power off
46
13. Warranty and repair information
This meter is warranted to the original purchaser against defects in material or workmanship for the
lifetime of the meter. During this warranty period, IDEAL INDUSTRIES, INC. will, at its option, replace or
repair the defective unit, subject to verification of the defect or malfunction.
This warranty does not apply to defects resulting from abuse, neglect, accident, unauthorized repair,
alteration, or unreasonable use of the instrument.
Any implied warranties arising out of the sale of an IDEAL product, including but not limited to implied
warranties of merchantability and fitness for a particular purpose, are limited to the above. The
manufacturer shall not be liable for loss of use of the instrument or other incidental or consequential
damages, expenses, or economic loss, or for any claim or claims for such damage, expenses or
economic loss.
State laws vary, so the above limitations or exclusions may not apply to you. This warranty gives you
specific legal rights, and you may also have other rights, which vary from state to state.
For units in need of repair or warranty repair, please call our Technical Hotline – Toll Free 877-201-9005.
47
IDEAL INDUSTRIES, INC.
Technical Hotline, toll-free 877-201-9005
Becker Place, Sycamore, IL 60178, USA / 800-435-0705 in USA
33 Fuller Road, Ajax, Ontario L1S 2E1, Canada / 800-527-9105 in Canada
225 Europa Boulevard, Warrington, Cheshire, WA5 7TN, UK / +44-(0) 1925 444446
Gutenbergstrasse 10, 85737 Ismaning, Germany / +49-(0) 89 996860
27 Keene Street, Baulkham Hills, NSW 2153, Australia / +61-(2) 96866923
www.testersandmeters.com
ND 3543-1 Made in Spain
48
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